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OpenPunk:master OpenPunk:db OpenPunk:landlock OpenPunk:lua-more-better OpenPunk:refactor OpenPunk:win32-x86 OpenPunk:patchmap OpenPunk:lua
OpenPunk:2.0 OpenPunk:1.6 OpenPunk:1.5.2 OpenPunk:1.5.1 OpenPunk:1.5 OpenPunk:1.4 OpenPunk:1.3 OpenPunk:1.2.1 OpenPunk:1.2 OpenPunk:1.1 OpenPunk:1.0
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compare: OpenPunk:refactor
Branches Tags
OpenPunk:master OpenPunk:db OpenPunk:landlock OpenPunk:lua-more-better OpenPunk:refactor OpenPunk:win32-x86 OpenPunk:patchmap OpenPunk:lua
OpenPunk:2.0 OpenPunk:1.6 OpenPunk:1.5.2 OpenPunk:1.5.1 OpenPunk:1.5 OpenPunk:1.4 OpenPunk:1.3 OpenPunk:1.2.1 OpenPunk:1.2 OpenPunk:1.1 OpenPunk:1.0

32 Commits
33396f8d28 ... refactor

Author SHA1 Message Date
dongresource
9b2a65f8fd [refactor] More buff + skill fixes 2023-10-08 16:43:11 -04:00
dongresource
6a69388822 Refactor and generalize NPCEvent logic 2023-10-08 16:43:11 -04:00
dongresource
2924a27eb4 Rename coord args in summonNPC() and constructors to clarify purpose 
This makes it clearer that the real coords aren't set until the first
call to updateNPCPosition().
 2023-10-08 16:43:11 -04:00
dongresource
ba20f5a401 Quick fix for Fuse boss fight NPCEvent logic 
Will be replaced with a proper rework immediately.
 2023-10-08 16:43:11 -04:00
gsemaj
eb88fa05cb reduce drain tickrate 2023-10-08 16:43:11 -04:00
gsemaj
0b73cef187 Clear player buffs on death if not revived 2023-10-08 16:43:11 -04:00
gsemaj
7af39b3d04 [refactor] Buff + skill bugfixes 2023-10-08 16:43:11 -04:00
gsemaj
33206b1207 Updater contributer guide 2023-10-08 16:43:11 -04:00
gsemaj
e325f7a40b Implement buff handling for CombatNPC 2023-10-08 16:43:11 -04:00
gsemaj
82bee2051a [refactor] Active power handling 2023-10-08 16:43:11 -04:00
gsemaj
4ece1bb89b [refactor] Sync with master 
This was initially a merge commit that got ironed out by rebase cleanup.
Notable changes are:
- Copying EntityRef instead of referencing it
- Some changes to includes
 2023-10-08 16:41:51 -04:00
gsemaj
31677e2638 [refactor] New buff framework (player implementation) 
Get rid of `iConditionBitFlag` in favor of a system of individual buff
objects that get composited to a bitflag on-the-fly.
Buff objects can have callbacks for application, expiration, and tick,
making them pretty flexible. Scripting languages can eventually use
these for custom behavior, too.

TODO:
- Get rid of bitflag in BaseNPC
- Apply buffs from passive nano powers
- Apply buffs from active nano powers
- Move eggs to new system
- ???
 2023-10-08 16:34:43 -04:00
gsemaj
d32827b692 The great re-#include 
Was getting frustrated by the inconsistency in our include statements,
which were causing me problems. As a result, I went through and manually
re-organized every include statement in non-core files.

I'm just gonna copy my rant from Discord:
FOR HEADER FILES (.hpp):
- everything you use IN THE HEADER must be EXPLICITLY INCLUDED with the exception of things that fall under Core.hpp
- you may NOT include ANYTHING ELSE

FOR SOURCE FILES (.cpp):
- you can #include whatever you want as long as the partner header is included first
- anything that gets included by another include is fair game
- redundant includes are ok because they'll be harmless AS LONG AS our header files stay lean.

the point of this is NOT to optimize the number of includes used all around or make things more efficient necessarily. it's to improve readability & coherence and make it easier to avoid cyclical issues
 2023-10-08 16:34:18 -04:00
gsemaj
13c009b448 Get rid of player fire rate suspicion 
This was super primitive & jank, and caused false positives.
Will replace with a polished system later on.
 2023-10-08 16:34:18 -04:00
gsemaj
a032497bed Handle case where cmake is invoked outside root 2023-10-08 16:34:18 -04:00
gsemaj
3b6b61d087 [refactor] SkillData additions for buffs 2023-10-08 16:34:18 -04:00
gsemaj
6d760f5bce Replace group filter operator with function 2023-10-08 16:33:54 -04:00
gsemaj
2a622f901c Ignore .bak files 
for my local backups lol
 2023-10-08 16:33:53 -04:00
gsemaj
03d28bf4e4 [refactor] Refactor groups 2023-10-08 16:33:53 -04:00
gsemaj
4b834579c5 [refactor] Remaining ICombatant implementation 2023-10-08 16:33:34 -04:00
gsemaj
07fe8ca367 (WIP) Remove BaseNPC::barkerType to save space 2023-10-08 16:32:49 -04:00
gsemaj
2f3f8a3951 [refactor] Initial ICombatant draft 2023-10-08 16:32:49 -04:00
dongresource
4f890a9c07 [refactor] Get rid of NPC.hpp 
This file was already obsoleted at the start of the refactor, but seems
to have escaped notice until now.
 2023-10-08 16:31:53 -04:00
dongresource
8517e0c7de [refactor] Replace a few uses of magic numbers with enums 2023-10-08 16:31:53 -04:00
dongresource
5fb0cbbcf7 [refactor] Cosmetic cleanup in Fuse fight functions 2023-10-08 16:31:53 -04:00
dongresource
55e9f6531d [refactor] Remove redundant coord args from most entity constructors 
Mobs and CombatNPCs still need theirs in order to properly set their
roaming and spawn coords. Assignment of the latter has been moved to the
CombatNPC constructor, where it should have already been.
 2023-10-08 16:31:53 -04:00
gsemaj
7726357fbe [WIP] Stub power handler 2023-10-08 16:31:53 -04:00
gsemaj
564c275d51 [WIP] Use EntityRef instead of CNSocket in ability handler 2023-10-08 16:31:53 -04:00
gsemaj
3ce9ae5f77 [WIP] Replace appearance data with individual fields 
Storing certain things in appearance data and others in their own fields
was gross. Now everything is stored on the same level and functions have
been added to generate appearance data when it's needed by the client.
 2023-10-08 16:31:53 -04:00
gsemaj
7c5b9a8105 [WIP] Rename Entity.type -> Entity.kind 2023-10-08 16:31:53 -04:00
gsemaj
258ff35e20 [WIP] Initial merge of ability namespaces & features 2023-10-08 16:31:53 -04:00
gsemaj
650f947451 Add .dockerignore file 
Fixes an issue where if you had a version.h file generated from cmake,
it would be used in the Dockerfile even though the container uses make.
 2023-08-19 18:22:21 +00:00
24 changed files with 649 additions and 390 deletions
Expand all files Collapse all files

1
.dockerignore Normal file
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@@ -0,0 +1 @@
version.h

39
CONTRIBUTING.md
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@@ -26,7 +26,7 @@ Both are pretty short reads and following them will get you up to speed with bra
I will now cover a few examples of the complications people have encountered contributing to this project, how to understand them, overcome them and henceforth avoid them.
## Dirty pull requests
### Dirty pull requests
Many Pull Requests OpenFusion receives fail to present a clean set of commits to merge.
These are generally either:
@@ -44,7 +44,7 @@ If you read the above links, you'll note that this isn't exactly a perfect solut
The obvious issue, then, is that the people submitting dirty PRs are the exact people who don't *know* how to rebase their fork to continue submitting their work cleanly.
So they end up creating countless merge commits when pulling upstream on top of their own incompatible histories, and then submitting those merge commits in their PRs and the cycle continues.
## The details
### The details
A git commit is uniquely identified by its SHA1 hash.
Its hash is generated from its contents, as well as the hash(es) of its parent commit(s).
@@ -52,7 +52,7 @@ Its hash is generated from its contents, as well as the hash(es) of its parent c
That means that even if two commits are exactly the same in terms of content, they're not the same commit if their parent commits differ (ex. if they've been rebased).
So if you keep issuing `git pull`s after upstream has merged a rebased version of your PR, you will never re-synchronize with it, and will instead construct an alternate history polluted by pointless merge commits.
## The solution
### The solution
If you already have a messed-up fork and you have no changes on it that you're afraid to lose, the solution is simple:
@@ -67,7 +67,7 @@ If you do have some committed changes that haven't yet been merged upstream, you
If you do end up messing something up, don't worry, it most likely isn't really lost and `git reflog` is your friend.
(You can checkout an arbitrary commit, and make it into its own branch with `git checkout -b BRANCH` or set a pre-exisitng branch to it with `git reset --hard COMMIT`)
## Avoiding the problem
### Avoiding the problem
When working on a changeset you want to submit back upstream, don't do it on the main branch.
Create a work branch just for your changeset with `git checkout -b work`.
@@ -81,3 +81,34 @@ That way you can always keep master in sync with upstream with `git pull --ff-on
Creating new branches for the rebase isn't strictly necessary since you can always return a branch to its previous state with `git reflog`.
For moving uncommited changes around between branches, `git stash` is a real blessing.
## Code guidelines
Alright, you're up to speed on Git and ready to go. Here are a few specific code guidelines to try and follow:
### Match the styling
Pretty straightforward, make sure your code looks similar to the code around it. Match whitespacing, bracket styling, variable naming conventions, etc.
### Prefer short-circuiting
To minimize branching complexity (as this makes the code hard to read), we prefer to keep the number of `if-else` statements as low as possible. One easy way to achieve this is by doing an early return after branching into an `if` block and then writing the code for the other path outside the block entirely. You can find examples of this in practically every source file. Note that in a few select situations, this might actually make your code less elegant, which is why this isn't a strict rule. Lean towards short-circuiting and use your better judgement.
### Follow the include convention
This one matters a lot as it can cause cyclic dependencies and other code-breaking issues.
FOR HEADER FILES (.hpp):
- everything you use IN THE HEADER must be EXPLICITLY INCLUDED with the exception of things that fall under Core.hpp
- you may NOT include ANYTHING ELSE
FOR SOURCE FILES (.cpp):
- you can #include whatever you want as long as the partner header is included first
- anything that gets included by another include is fair game
- redundant includes are ok because they'll be harmless AS LONG AS our header files stay lean.
The point of this is NOT to optimize the number of includes used all around or make things more efficient necessarily. it's to improve readability & coherence and make it easier to avoid cyclical issues.
## When in doubt, ask
If you still have questions that were not answered here, feel free to ping a dev in the Discord server or on GitHub.

344
src/Abilities.cpp
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@@ -1,11 +1,12 @@
#include "Abilities.hpp"
#include "servers/CNShardServer.hpp"
#include "NPCManager.hpp"
#include "PlayerManager.hpp"
#include "Buffs.hpp"
#include "Nanos.hpp"
#include <assert.h>
#include "MobAI.hpp"
using namespace Abilities;
@@ -47,16 +48,107 @@ static SkillResult handleSkillHealHP(SkillData* skill, int power, ICombatant* so
}
static SkillResult handleSkillDamageNDebuff(SkillData* skill, int power, ICombatant* source, ICombatant* target) {
// TODO abilities
// take aggro
target->takeDamage(source->getRef(), 0);
int duration = 0;
int strength = 0;
bool blocked = target->hasBuff(ECSB_FREEDOM);
if(!blocked) {
duration = skill->durationTime[power];
strength = skill->values[0][power];
BuffStack debuff = {
(duration * 100) / MS_PER_COMBAT_TICK, // ticks
strength, // value
source->getRef(), // source
BuffClass::NANO, // buff class
};
int timeBuffId = Abilities::getCSTBFromST(skill->skillType);
target->addBuff(timeBuffId,
[](EntityRef self, Buff* buff, int status, BuffStack* stack) {
Buffs::timeBuffUpdate(self, buff, status, stack);
if(status == ETBU_DEL) Buffs::timeBuffTimeout(self);
},
[](EntityRef self, Buff* buff, time_t currTime) {
Buffs::timeBuffTick(self, buff);
},
&debuff);
}
sSkillResult_Damage_N_Debuff result{};
result.iDamage = duration / 10; // we use the duration as the damage number (why?)
result.iHP = target->getCurrentHP();
result.eCT = target->getCharType();
result.iID = target->getID();
result.bProtected = false;
result.bProtected = blocked;
result.iConditionBitFlag = target->getCompositeCondition();
// for player targets, make sure to update Nano stamina
if (target->getCharType() == 1) {
Player *plr = dynamic_cast<Player*>(target);
result.iStamina = plr->getActiveNano()->iStamina;
}
return SkillResult(sizeof(sSkillResult_Damage_N_Debuff), &result);
}
static SkillResult handleSkillLeech(SkillData* skill, int power, ICombatant* source, ICombatant* target) {
EntityRef sourceRef = source->getRef();
int heal = skill->values[0][power];
int healed = source->heal(sourceRef, heal);
int damage = heal * 2;
int dealt = target->takeDamage(sourceRef, damage);
sSkillResult_Leech result{};
result.Damage.eCT = target->getCharType();
result.Damage.iID = target->getID();
result.Damage.bProtected = dealt <= 0;
result.Damage.iDamage = dealt;
result.Damage.iHP = target->getCurrentHP();
result.Heal.eCT = result.Damage.eCT;
result.Heal.iID = result.Damage.iID;
result.Heal.iHealHP = healed;
result.Heal.iHP = source->getCurrentHP();
return SkillResult(sizeof(sSkillResult_Leech), &result);
}
static SkillResult handleSkillBuff(SkillData* skill, int power, ICombatant* source, ICombatant* target) {
int duration = skill->durationTime[power];
int strength = skill->values[0][power];
BuffStack passiveBuff = {
// if the duration is 0, it needs to be recast every tick
duration == 0 ? 1 : (duration * 100) / MS_PER_COMBAT_TICK, // ticks
strength, // value
source->getRef(), // source
source == target ? BuffClass::NANO : BuffClass::GROUP_NANO, // buff class
};
int timeBuffId = Abilities::getCSTBFromST(skill->skillType);
SkillDrainType drainType = skill->drainType;
int combatLifetime = 0;
if(!target->addBuff(timeBuffId,
[drainType](EntityRef self, Buff* buff, int status, BuffStack* stack) {
if(buff->id == ECSB_BOUNDINGBALL && status == ETBU_ADD) {
// drain
ICombatant* combatant = dynamic_cast<ICombatant*>(self.getEntity());
combatant->takeDamage(buff->getLastSource(), 0); // aggro
}
Buffs::timeBuffUpdate(self, buff, status, stack);
if(drainType == SkillDrainType::ACTIVE && status == ETBU_DEL)
Buffs::timeBuffTimeout(self);
},
[combatLifetime](EntityRef self, Buff* buff, time_t currTime) mutable {
if(buff->id == ECSB_BOUNDINGBALL &&
combatLifetime % COMBAT_TICKS_PER_DRAIN_PROC == 0)
Buffs::tickDrain(self, buff, COMBAT_TICKS_PER_DRAIN_PROC); // drain
combatLifetime++;
},
&passiveBuff)) return SkillResult();
sSkillResult_Buff result{};
result.eCT = target->getCharType();
result.iID = target->getID();
@@ -71,19 +163,24 @@ static SkillResult handleSkillBatteryDrain(SkillData* skill, int power, ICombata
Player* plr = dynamic_cast<Player*>(target);
const double scalingFactor = (18 + source->getLevel()) / 36.0;
const bool blocked = target->hasBuff(ECSB_PROTECT_BATTERY);
int boostDrain = (int)(skill->values[0][power] * scalingFactor);
if(boostDrain > plr->batteryW) boostDrain = plr->batteryW;
plr->batteryW -= boostDrain;
int boostDrain = 0;
int potionDrain = 0;
if(!blocked) {
boostDrain = (int)(skill->values[0][power] * scalingFactor);
if(boostDrain > plr->batteryW) boostDrain = plr->batteryW;
plr->batteryW -= boostDrain;
int potionDrain = (int)(skill->values[1][power] * scalingFactor);
if(potionDrain > plr->batteryN) potionDrain = plr->batteryN;
plr->batteryN -= potionDrain;
potionDrain = (int)(skill->values[1][power] * scalingFactor);
if(potionDrain > plr->batteryN) potionDrain = plr->batteryN;
plr->batteryN -= potionDrain;
}
sSkillResult_BatteryDrain result{};
result.eCT = target->getCharType();
result.iID = target->getID();
result.bProtected = target->hasBuff(ECSB_PROTECT_BATTERY);
result.bProtected = blocked;
result.iDrainW = boostDrain;
result.iBatteryW = plr->batteryW;
result.iDrainN = potionDrain;
@@ -97,8 +194,13 @@ static SkillResult handleSkillBatteryDrain(SkillData* skill, int power, ICombata
static SkillResult handleSkillMove(SkillData* skill, int power, ICombatant* source, ICombatant* target) {
if(source->getCharType() != 1)
return SkillResult(); // only Players are valid sources for recall
Player* plr = dynamic_cast<Player*>(source);
PlayerManager::sendPlayerTo(source->getRef().sock, plr->recallX, plr->recallY, plr->recallZ, plr->recallInstance);
if(source == target) {
// no trailing struct for self
PlayerManager::sendPlayerTo(target->getRef().sock, plr->recallX, plr->recallY, plr->recallZ, plr->recallInstance);
return SkillResult();
}
sSkillResult_Move result{};
result.eCT = target->getCharType();
@@ -120,56 +222,66 @@ static SkillResult handleSkillResurrect(SkillData* skill, int power, ICombatant*
#pragma endregion
static std::vector<SkillResult> handleSkill(SkillData* skill, int power, ICombatant* src, std::vector<ICombatant*> targets) {
size_t resultSize = 0;
SkillResult (*skillHandler)(SkillData*, int, ICombatant*, ICombatant*) = nullptr;
std::vector<SkillResult> results;
switch(skill->skillType)
{
case EST_DAMAGE:
resultSize = sizeof(sSkillResult_Damage);
case SkillType::CORRUPTIONATTACK:
case SkillType::CORRUPTIONATTACKLOSE:
case SkillType::CORRUPTIONATTACKWIN:
// skillHandler = handleSkillCorruptionReflect;
// break;
case SkillType::DAMAGE:
skillHandler = handleSkillDamage;
break;
case EST_HEAL_HP:
case EST_RETURNHOMEHEAL:
resultSize = sizeof(sSkillResult_Heal_HP);
case SkillType::HEAL_HP:
case SkillType::RETURNHOMEHEAL:
skillHandler = handleSkillHealHP;
break;
case EST_JUMP:
case EST_RUN:
case EST_FREEDOM:
case EST_PHOENIX:
case EST_INVULNERABLE:
case EST_MINIMAPENEMY:
case EST_MINIMAPTRESURE:
case EST_NANOSTIMPAK:
case EST_PROTECTBATTERY:
case EST_PROTECTINFECTION:
case EST_REWARDBLOB:
case EST_REWARDCASH:
case EST_STAMINA_SELF:
case EST_STEALTH:
resultSize = sizeof(sSkillResult_Buff);
case SkillType::KNOCKDOWN:
case SkillType::SLEEP:
case SkillType::SNARE:
case SkillType::STUN:
skillHandler = handleSkillDamageNDebuff;
break;
case SkillType::JUMP:
case SkillType::RUN:
case SkillType::STEALTH:
case SkillType::MINIMAPENEMY:
case SkillType::MINIMAPTRESURE:
case SkillType::PHOENIX:
case SkillType::PROTECTBATTERY:
case SkillType::PROTECTINFECTION:
case SkillType::REWARDBLOB:
case SkillType::REWARDCASH:
// case SkillType::INFECTIONDAMAGE:
case SkillType::FREEDOM:
case SkillType::BOUNDINGBALL:
case SkillType::INVULNERABLE:
case SkillType::STAMINA_SELF:
case SkillType::NANOSTIMPAK:
case SkillType::BUFFHEAL:
skillHandler = handleSkillBuff;
break;
case EST_BATTERYDRAIN:
resultSize = sizeof(sSkillResult_BatteryDrain);
skillHandler = handleSkillBatteryDrain;
case SkillType::BLOODSUCKING:
skillHandler = handleSkillLeech;
break;
case EST_RECALL: // still soft lock
case EST_RECALL_GROUP: // works for player who uses it
resultSize = sizeof(sSkillResult_Move);
skillHandler = handleSkillMove;
break;
case EST_PHOENIX_GROUP: // broken
resultSize = sizeof(sSkillResult_Resurrect);
skillHandler = handleSkillResurrect;
break;
case EST_RETROROCKET_SELF:
case SkillType::RETROROCKET_SELF:
// no-op
return results;
case SkillType::PHOENIX_GROUP:
skillHandler = handleSkillResurrect;
break;
case SkillType::RECALL:
case SkillType::RECALL_GROUP:
skillHandler = handleSkillMove;
break;
case SkillType::BATTERYDRAIN:
skillHandler = handleSkillBatteryDrain;
break;
default:
std::cout << "[WARN] Unhandled skill type " << skill->skillType << std::endl;
std::cout << "[WARN] Unhandled skill type " << (int)skill->skillType << std::endl;
return results;
}
@@ -177,8 +289,8 @@ static std::vector<SkillResult> handleSkill(SkillData* skill, int power, ICombat
assert(target != nullptr);
SkillResult result = skillHandler(skill, power, src != nullptr ? src : target, target);
if(result.size == 0) continue; // skill not applicable
if(result.size != resultSize) {
std::cout << "[WARN] bad skill result size for " << skill->skillType << " from " << (void*)handleSkillBuff << std::endl;
if(result.size > MAX_SKILLRESULT_SIZE) {
std::cout << "[WARN] bad skill result size for " << (int)skill->skillType << " from " << (void*)handleSkillBuff << std::endl;
continue;
}
results.push_back(result);
@@ -186,36 +298,42 @@ static std::vector<SkillResult> handleSkill(SkillData* skill, int power, ICombat
return results;
}
static void attachSkillResults(std::vector<SkillResult> results, size_t resultSize, uint8_t* pivot) {
static void attachSkillResults(std::vector<SkillResult> results, uint8_t* pivot) {
for(SkillResult& result : results) {
memcpy(pivot, result.payload, resultSize);
pivot += resultSize;
size_t sz = result.size;
memcpy(pivot, result.payload, sz);
pivot += sz;
}
}
void Abilities::useNanoSkill(CNSocket* sock, SkillData* skill, sNano& nano, std::vector<ICombatant*> affected) {
Player* plr = PlayerManager::getPlayer(sock);
ICombatant* combatant = dynamic_cast<ICombatant*>(plr);
int boost = 0;
if (Nanos::getNanoBoost(plr))
boost = 3;
nano.iStamina -= skill->batteryUse[boost];
if (nano.iStamina < 0)
nano.iStamina = 0;
if(skill->drainType == SkillDrainType::ACTIVE) {
nano.iStamina -= skill->batteryUse[boost];
if (nano.iStamina <= 0)
nano.iStamina = 0;
}
std::vector<SkillResult> results = handleSkill(skill, boost, plr, affected);
size_t resultSize = 0; // guaranteed to be the same for every item
if (!results.empty()) resultSize = results.back().size;
std::vector<SkillResult> results = handleSkill(skill, boost, combatant, affected);
if(results.empty()) return; // no effect; no need for confirmation packets
if (!validOutVarPacket(sizeof(sP_FE2CL_NANO_SKILL_USE_SUCC), results.size(), resultSize)) {
// lazy validation since skill results might be different sizes
if (!validOutVarPacket(sizeof(sP_FE2CL_NANO_SKILL_USE_SUCC), results.size(), MAX_SKILLRESULT_SIZE)) {
std::cout << "[WARN] bad sP_FE2CL_NANO_SKILL_USE_SUCC packet size\n";
return;
}
// initialize response struct
size_t resplen = sizeof(sP_FE2CL_NANO_SKILL_USE_SUCC) + results.size() * resultSize;
size_t resplen = sizeof(sP_FE2CL_NANO_SKILL_USE_SUCC);
for(SkillResult& sr : results)
resplen += sr.size;
uint8_t respbuf[CN_PACKET_BUFFER_SIZE];
memset(respbuf, 0, resplen);
@@ -225,15 +343,17 @@ void Abilities::useNanoSkill(CNSocket* sock, SkillData* skill, sNano& nano, std:
pkt->iSkillID = nano.iSkillID;
pkt->iNanoStamina = nano.iStamina;
pkt->bNanoDeactive = nano.iStamina <= 0;
pkt->eST = skill->skillType;
pkt->eST = (int32_t)skill->skillType;
pkt->iTargetCnt = (int32_t)results.size();
attachSkillResults(results, resultSize, (uint8_t*)(pkt + 1));
attachSkillResults(results, (uint8_t*)(pkt + 1));
sock->sendPacket(pkt, P_FE2CL_NANO_SKILL_USE_SUCC, resplen);
PlayerManager::sendToViewable(sock, pkt, P_FE2CL_NANO_SKILL_USE_SUCC, resplen);
if (nano.iStamina <= 0)
Nanos::summonNano(sock, -1);
if(skill->skillType == SkillType::RECALL_GROUP)
// group recall packet is sent only to group members
PlayerManager::sendToGroup(sock, pkt, P_FE2CL_NANO_SKILL_USE, resplen);
else
PlayerManager::sendToViewable(sock, pkt, P_FE2CL_NANO_SKILL_USE, resplen);
}
void Abilities::useNPCSkill(EntityRef npc, int skillID, std::vector<ICombatant*> affected) {
@@ -248,25 +368,34 @@ void Abilities::useNPCSkill(EntityRef npc, int skillID, std::vector<ICombatant*>
SkillData* skill = &SkillTable[skillID];
std::vector<SkillResult> results = handleSkill(skill, 0, src, affected);
size_t resultSize = results.back().size; // guaranteed to be the same for every item
if(results.empty()) return; // no effect; no need for confirmation packets
if (!validOutVarPacket(sizeof(sP_FE2CL_NPC_SKILL_HIT), results.size(), resultSize)) {
// lazy validation since skill results might be different sizes
if (!validOutVarPacket(sizeof(sP_FE2CL_NPC_SKILL_HIT), results.size(), MAX_SKILLRESULT_SIZE)) {
std::cout << "[WARN] bad sP_FE2CL_NPC_SKILL_HIT packet size\n";
return;
}
// initialize response struct
size_t resplen = sizeof(sP_FE2CL_NPC_SKILL_HIT) + results.size() * resultSize;
size_t resplen = sizeof(sP_FE2CL_NPC_SKILL_HIT);
for(SkillResult& sr : results)
resplen += sr.size;
uint8_t respbuf[CN_PACKET_BUFFER_SIZE];
memset(respbuf, 0, resplen);
sP_FE2CL_NPC_SKILL_HIT* pkt = (sP_FE2CL_NPC_SKILL_HIT*)respbuf;
pkt->iNPC_ID = npc.id;
pkt->iSkillID = skillID;
pkt->eST = skill->skillType;
pkt->eST = (int32_t)skill->skillType;
pkt->iTargetCnt = (int32_t)results.size();
if(npc.kind == EntityKind::MOB) {
Mob* mob = dynamic_cast<Mob*>(entity);
pkt->iValue1 = mob->hitX;
pkt->iValue2 = mob->hitY;
pkt->iValue3 = mob->hitZ;
}
attachSkillResults(results, resultSize, (uint8_t*)(pkt + 1));
attachSkillResults(results, (uint8_t*)(pkt + 1));
NPCManager::sendToViewable(entity, pkt, P_FE2CL_NPC_SKILL_HIT, resplen);
}
@@ -283,18 +412,13 @@ static std::vector<ICombatant*> entityRefsToCombatants(std::vector<EntityRef> re
std::vector<ICombatant*> Abilities::matchTargets(ICombatant* src, SkillData* skill, int count, int32_t *ids) {
if(skill->targetType == SkillTargetType::GROUP)
return entityRefsToCombatants(src->getGroupMembers());
// this check *has* to happen after the group check above due to cases like group recall that use both
if(skill->effectTarget == SkillEffectTarget::SELF)
return {src}; // client sends 0 targets for certain self-targeting skills (recall)
if(skill->targetType == SkillTargetType::GROUP) {
// group
if(count != 1 || ids[0] != src->getID()) {
std::cout << "[WARN] skill: bad group targeting (id " << ids[0] << ")\n";
return {};
}
return entityRefsToCombatants(src->getGroupMembers());
}
// individuals
std::vector<ICombatant*> targets;
for (int i = 0; i < count; i++) {
@@ -324,63 +448,69 @@ std::vector<ICombatant*> Abilities::matchTargets(ICombatant* src, SkillData* ski
}
/* ripped from client (enums emplaced) */
int Abilities::getCSTBFromST(int eSkillType) {
int Abilities::getCSTBFromST(SkillType skillType) {
int result = 0;
switch (eSkillType)
switch (skillType)
{
case EST_RUN:
case SkillType::RUN:
result = ECSB_UP_MOVE_SPEED;
break;
case EST_JUMP:
case SkillType::JUMP:
result = ECSB_UP_JUMP_HEIGHT;
break;
case EST_STEALTH:
case SkillType::STEALTH:
result = ECSB_UP_STEALTH;
break;
case EST_PHOENIX:
case SkillType::PHOENIX:
result = ECSB_PHOENIX;
break;
case EST_PROTECTBATTERY:
case SkillType::PROTECTBATTERY:
result = ECSB_PROTECT_BATTERY;
break;
case EST_PROTECTINFECTION:
case SkillType::PROTECTINFECTION:
result = ECSB_PROTECT_INFECTION;
break;
case EST_SNARE:
result = ECSB_DN_MOVE_SPEED;
break;
case EST_SLEEP:
result = ECSB_MEZ;
break;
case EST_MINIMAPENEMY:
case SkillType::MINIMAPENEMY:
result = ECSB_MINIMAP_ENEMY;
break;
case EST_MINIMAPTRESURE:
case SkillType::MINIMAPTRESURE:
result = ECSB_MINIMAP_TRESURE;
break;
case EST_REWARDBLOB:
case SkillType::REWARDBLOB:
result = ECSB_REWARD_BLOB;
break;
case EST_REWARDCASH:
case SkillType::REWARDCASH:
result = ECSB_REWARD_CASH;
break;
case EST_INFECTIONDAMAGE:
result = ECSB_INFECTION;
break;
case EST_FREEDOM:
case SkillType::FREEDOM:
result = ECSB_FREEDOM;
break;
case EST_BOUNDINGBALL:
result = ECSB_BOUNDINGBALL;
break;
case EST_INVULNERABLE:
case SkillType::INVULNERABLE:
result = ECSB_INVULNERABLE;
break;
case EST_BUFFHEAL:
case SkillType::BUFFHEAL:
result = ECSB_HEAL;
break;
case EST_NANOSTIMPAK:
case SkillType::NANOSTIMPAK:
result = ECSB_STIMPAKSLOT1;
// shift as necessary
break;
case SkillType::SNARE:
result = ECSB_DN_MOVE_SPEED;
break;
case SkillType::STUN:
result = ECSB_STUN;
break;
case SkillType::SLEEP:
result = ECSB_MEZ;
break;
case SkillType::INFECTIONDAMAGE:
result = ECSB_INFECTION;
break;
case SkillType::BOUNDINGBALL:
result = ECSB_BOUNDINGBALL;
break;
default:
break;
}
return result;

48
src/Abilities.hpp
View File

@@ -7,9 +7,52 @@
#include <map>
#include <vector>
#include <assert.h>
const int COMBAT_TICKS_PER_DRAIN_PROC = 2;
constexpr size_t MAX_SKILLRESULT_SIZE = sizeof(sSkillResult_BatteryDrain);
enum class SkillType {
DAMAGE = 1,
HEAL_HP = 2,
KNOCKDOWN = 3, // uses DamageNDebuff
SLEEP = 4, // uses DamageNDebuff
SNARE = 5, // uses DamageNDebuff
HEAL_STAMINA = 6,
STAMINA_SELF = 7,
STUN = 8, // uses DamageNDebuff
WEAPONSLOW = 9,
JUMP = 10,
RUN = 11,
STEALTH = 12,
SWIM = 13,
MINIMAPENEMY = 14,
MINIMAPTRESURE = 15,
PHOENIX = 16,
PROTECTBATTERY = 17,
PROTECTINFECTION = 18,
REWARDBLOB = 19,
REWARDCASH = 20,
BATTERYDRAIN = 21,
CORRUPTIONATTACK = 22,
INFECTIONDAMAGE = 23,
KNOCKBACK = 24,
FREEDOM = 25,
PHOENIX_GROUP = 26,
RECALL = 27,
RECALL_GROUP = 28,
RETROROCKET_SELF = 29,
BLOODSUCKING = 30,
BOUNDINGBALL = 31,
INVULNERABLE = 32,
NANOSTIMPAK = 33,
RETURNHOMEHEAL = 34,
BUFFHEAL = 35,
EXTRABANK = 36,
CORRUPTIONATTACKWIN = 38,
CORRUPTIONATTACKLOSE = 39,
};
enum class SkillEffectTarget {
POINT = 1,
SELF = 2,
@@ -34,6 +77,7 @@ struct SkillResult {
size_t size;
uint8_t payload[MAX_SKILLRESULT_SIZE];
SkillResult(size_t len, void* dat) {
assert(len <= MAX_SKILLRESULT_SIZE);
size = len;
memcpy(payload, dat, len);
}
@@ -43,7 +87,7 @@ struct SkillResult {
};
struct SkillData {
int skillType; // eST
SkillType skillType; // eST
SkillEffectTarget effectTarget;
int effectType; // always 1?
SkillTargetType targetType;
@@ -64,5 +108,5 @@ namespace Abilities {
void useNPCSkill(EntityRef, int skillID, std::vector<ICombatant*>);
std::vector<ICombatant*> matchTargets(ICombatant*, SkillData*, int, int32_t*);
int getCSTBFromST(int eSkillType);
int getCSTBFromST(SkillType skillType);
}

49
src/Buffs.cpp
View File

@@ -95,6 +95,12 @@ int Buff::getValue(BuffValueSelector selector) {
return value;
}
EntityRef Buff::getLastSource() {
if(stacks.empty())
return self;
return stacks.back().source;
}
bool Buff::isStale() {
return stacks.empty();
}
@@ -137,15 +143,56 @@ void Buffs::timeBuffUpdate(EntityRef self, Buff* buff, int status, BuffStack* st
self.sock->sendPacket((void*)&pkt, P_FE2CL_PC_BUFF_UPDATE, sizeof(sP_FE2CL_PC_BUFF_UPDATE));
}
void Buffs::timeBuffTick(EntityRef self, Buff* buff) {
if(self.kind != EntityKind::COMBAT_NPC && self.kind != EntityKind::MOB)
return; // not implemented
Entity* entity = self.getEntity();
ICombatant* combatant = dynamic_cast<ICombatant*>(entity);
INITSTRUCT(sP_FE2CL_CHAR_TIME_BUFF_TIME_TICK, pkt);
pkt.eCT = combatant->getCharType();
pkt.iID = combatant->getID();
pkt.iTB_ID = buff->id;
NPCManager::sendToViewable(entity, &pkt, P_FE2CL_CHAR_TIME_BUFF_TIME_TICK, sizeof(sP_FE2CL_CHAR_TIME_BUFF_TIME_TICK));
}
void Buffs::timeBuffTimeout(EntityRef self) {
if(self.kind != EntityKind::PLAYER && self.kind != EntityKind::COMBAT_NPC && self.kind != EntityKind::MOB)
return; // not a combatant
Entity* entity = self.getEntity();
ICombatant* combatant = dynamic_cast<ICombatant*>(entity);
INITSTRUCT(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT, pkt); // send a buff timeout to other players
pkt.eCT = combatant->getCharType();
int32_t eCharType = combatant->getCharType();
pkt.eCT = eCharType == 4 ? 2 : eCharType; // convention not followed by client here
pkt.iID = combatant->getID();
pkt.iConditionBitFlag = combatant->getCompositeCondition();
NPCManager::sendToViewable(entity, &pkt, P_FE2CL_CHAR_TIME_BUFF_TIME_OUT, sizeof(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT));
}
void Buffs::tickDrain(EntityRef self, Buff* buff, int mult) {
if(self.kind != EntityKind::COMBAT_NPC && self.kind != EntityKind::MOB)
return; // not implemented
Entity* entity = self.getEntity();
ICombatant* combatant = dynamic_cast<ICombatant*>(entity);
int damage = combatant->getMaxHP() / 100 * mult;
int dealt = combatant->takeDamage(buff->getLastSource(), damage);
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;
pkt->iID = self.id;
pkt->eCT = combatant->getCharType();
pkt->iTB_ID = ECSB_BOUNDINGBALL;
sSkillResult_Damage *drain = (sSkillResult_Damage*)(respbuf + sizeof(sP_FE2CL_CHAR_TIME_BUFF_TIME_TICK));
drain->iDamage = dealt;
drain->iHP = combatant->getCurrentHP();
drain->eCT = pkt->eCT;
drain->iID = pkt->iID;
NPCManager::sendToViewable(self.getEntity(), (void*)&respbuf, P_FE2CL_CHAR_TIME_BUFF_TIME_TICK, resplen);
}
#pragma endregion

3
src/Buffs.hpp
View File

@@ -66,6 +66,7 @@ public:
BuffClass maxClass();
int getValue(BuffValueSelector selector);
EntityRef getLastSource();
/*
* In general, a Buff object won't exist
@@ -86,5 +87,7 @@ public:
namespace Buffs {
void timeBuffUpdate(EntityRef self, Buff* buff, int status, BuffStack* stack);
void timeBuffTick(EntityRef self, Buff* buff);
void timeBuffTimeout(EntityRef self);
void tickDrain(EntityRef self, Buff* buff, int mult);
}

111
src/Combat.cpp
View File

@@ -21,13 +21,14 @@ std::map<int32_t, std::map<int8_t, Bullet>> Combat::Bullets;
#pragma region Player
bool Player::addBuff(int buffId, BuffCallback<int, BuffStack*> onUpdate, BuffCallback<time_t> onTick, BuffStack* stack) {
EntityRef self = PlayerManager::getSockFromID(iID);
if(!isAlive())
return false;
if(!hasBuff(buffId)) {
buffs[buffId] = new Buff(buffId, self, onUpdate, onTick, stack);
buffs[buffId] = new Buff(buffId, getRef(), onUpdate, onTick, stack);
return true;
}
buffs[buffId]->updateCallbacks(onUpdate, onTick);
buffs[buffId]->addStack(stack);
return false;
@@ -48,9 +49,10 @@ void Player::removeBuff(int buffId) {
}
}
void Player::removeBuff(int buffId, int buffClass) {
void Player::removeBuff(int buffId, BuffClass buffClass) {
if(hasBuff(buffId)) {
buffs[buffId]->clear((BuffClass)buffClass);
buffs[buffId]->clear(buffClass);
// buff might not be stale since another buff class might remain
if(buffs[buffId]->isStale()) {
delete buffs[buffId];
buffs.erase(buffId);
@@ -58,6 +60,16 @@ void Player::removeBuff(int buffId, int buffClass) {
}
}
void Player::clearBuffs(bool force) {
auto it = buffs.begin();
while(it != buffs.end()) {
Buff* buff = (*it).second;
if(!force) buff->clear();
delete buff;
it = buffs.erase(it);
}
}
bool Player::hasBuff(int buffId) {
auto buff = buffs.find(buffId);
return buff != buffs.end() && !buff->second->isStale();
@@ -156,29 +168,78 @@ void Player::step(time_t currTime) {
// buffs
for(auto buffEntry : buffs) {
buffEntry.second->combatTick(currTime);
if(!isAlive())
break; // unsafe to keep ticking if we're dead
}
}
#pragma endregion
#pragma region CombatNPC
bool CombatNPC::addBuff(int buffId, BuffCallback<int, BuffStack*> onUpdate, BuffCallback<time_t> onTick, BuffStack* stack) { /* stubbed */
bool CombatNPC::addBuff(int buffId, BuffCallback<int, BuffStack*> onUpdate, BuffCallback<time_t> onTick, BuffStack* stack) {
if(!isAlive())
return false;
if (this->state != AIState::COMBAT && this->state != AIState::ROAMING)
return false;
if(!hasBuff(buffId)) {
buffs[buffId] = new Buff(buffId, getRef(), onUpdate, onTick, stack);
return true;
}
buffs[buffId]->updateCallbacks(onUpdate, onTick);
buffs[buffId]->addStack(stack);
return false;
}
Buff* CombatNPC::getBuff(int buffId) { /* stubbed */
Buff* CombatNPC::getBuff(int buffId) {
if(hasBuff(buffId)) {
return buffs[buffId];
}
return nullptr;
}
void CombatNPC::removeBuff(int buffId) { /* stubbed */ }
void CombatNPC::removeBuff(int buffId, int buffClass) { /* stubbed */ }
bool CombatNPC::hasBuff(int buffId) { /* stubbed */
return false;
void CombatNPC::removeBuff(int buffId) {
if(hasBuff(buffId)) {
buffs[buffId]->clear();
delete buffs[buffId];
buffs.erase(buffId);
}
}
int CombatNPC::getCompositeCondition() { /* stubbed */
return 0;
void CombatNPC::removeBuff(int buffId, BuffClass buffClass) {
if(hasBuff(buffId)) {
buffs[buffId]->clear(buffClass);
// buff might not be stale since another buff class might remain
if(buffs[buffId]->isStale()) {
delete buffs[buffId];
buffs.erase(buffId);
}
}
}
void CombatNPC::clearBuffs(bool force) {
auto it = buffs.begin();
while(it != buffs.end()) {
Buff* buff = (*it).second;
if(!force) buff->clear();
delete buff;
it = buffs.erase(it);
}
}
bool CombatNPC::hasBuff(int buffId) {
auto buff = buffs.find(buffId);
return buff != buffs.end() && !buff->second->isStale();
}
int CombatNPC::getCompositeCondition() {
int conditionBitFlag = 0;
for(auto buff : buffs) {
if(!buff.second->isStale() && buff.second->id > 0)
conditionBitFlag |= CSB_FROM_ECSB(buff.first);
}
return conditionBitFlag;
}
int CombatNPC::takeDamage(EntityRef src, int amt) {
@@ -249,19 +310,19 @@ void CombatNPC::step(time_t currTime) {
}
void CombatNPC::transition(AIState newState, EntityRef src) {
state = newState;
if (transitionHandlers.find(newState) != transitionHandlers.end())
transitionHandlers[newState](this, src);
else {
std::cout << "[WARN] Transition to " << (int)state << " has no handler; going inactive" << std::endl;
transition(AIState::INACTIVE, id);
}
/* TODO: fire any triggered events
// trigger special NPCEvents, if applicable
for (NPCEvent& event : NPCManager::NPCEvents)
if (event.trigger == ON_KILLED && event.npcType == type)
event.handler(src, this);
*/
if (event.triggerState == newState && event.npcType == type)
event.handler(this);
}
#pragma endregion
@@ -874,9 +935,12 @@ static void playerTick(CNServer *serv, time_t currTime) {
if (Abilities::SkillTable.find(nano->iSkillID) != Abilities::SkillTable.end()) {
// nano has skill data
SkillData* skill = &Abilities::SkillTable[nano->iSkillID];
if (skill->drainType == SkillDrainType::PASSIVE)
Nanos::applyNanoBuff(skill, plr);
// ^ composite condition calculation is separate from combat for responsiveness
if (skill->drainType == SkillDrainType::PASSIVE) {
ICombatant* src = dynamic_cast<ICombatant*>(plr);
int32_t targets[] = { plr->iID };
std::vector<ICombatant*> affectedCombatants = Abilities::matchTargets(src, skill, 1, targets);
Abilities::useNanoSkill(sock, skill, *nano, affectedCombatants);
}
}
}
@@ -896,6 +960,7 @@ static void playerTick(CNServer *serv, time_t currTime) {
auto it = plr->buffs.begin();
while(it != plr->buffs.end()) {
Buff* buff = (*it).second;
//buff->combatTick() gets called in Player::step
buff->tick(currTime);
if(buff->isStale()) {
// garbage collect

1
src/CustomCommands.cpp
View File

@@ -678,7 +678,6 @@ static void whoisCommand(std::string full, std::vector<std::string>& args, CNSoc
Chat::sendServerMessage(sock, "[WHOIS] ID: " + std::to_string(npc->id));
Chat::sendServerMessage(sock, "[WHOIS] Type: " + std::to_string(npc->type));
Chat::sendServerMessage(sock, "[WHOIS] HP: " + std::to_string(npc->hp));
Chat::sendServerMessage(sock, "[WHOIS] CBF: " + std::to_string(npc->cbf));
Chat::sendServerMessage(sock, "[WHOIS] EntityType: " + std::to_string((int)npc->kind));
Chat::sendServerMessage(sock, "[WHOIS] X: " + std::to_string(npc->x));
Chat::sendServerMessage(sock, "[WHOIS] Y: " + std::to_string(npc->y));

54
src/Eggs.cpp
View File

@@ -26,6 +26,7 @@ void Eggs::eggBuffPlayer(CNSocket* sock, int skillId, int eggId, int duration) {
return;
}
SkillResult result = SkillResult();
SkillData* skill = &Abilities::SkillTable[skillId];
if(skill->drainType == SkillDrainType::PASSIVE) {
// apply buff
@@ -50,12 +51,57 @@ void Eggs::eggBuffPlayer(CNSocket* sock, int skillId, int eggId, int duration) {
// no-op
},
&eggBuff);
sSkillResult_Buff resultBuff{};
resultBuff.eCT = plr->getCharType();
resultBuff.iID = plr->getID();
resultBuff.bProtected = false;
resultBuff.iConditionBitFlag = plr->getCompositeCondition();
result = SkillResult(sizeof(sSkillResult_Buff), &resultBuff);
} else {
int value = plr->getMaxHP() * skill->values[0][0] / 1000;
sSkillResult_Damage resultDamage{};
sSkillResult_Heal_HP resultHeal{};
switch(skill->skillType)
{
case SkillType::DAMAGE:
resultDamage.bProtected = false;
resultDamage.eCT = plr->getCharType();
resultDamage.iID = plr->getID();
resultDamage.iDamage = plr->takeDamage(src, value);
resultDamage.iHP = plr->getCurrentHP();
result = SkillResult(sizeof(sSkillResult_Damage), &resultDamage);
break;
case SkillType::HEAL_HP:
resultHeal.eCT = plr->getCharType();
resultHeal.iID = plr->getID();
resultHeal.iHealHP = plr->heal(src, value);
resultHeal.iHP = plr->getCurrentHP();
result = SkillResult(sizeof(sSkillResult_Heal_HP), &resultHeal);
break;
default:
std::cout << "[WARN] oops, egg with active skill type " << (int)skill->skillType << " unhandled";
return;
}
}
// use skill
std::vector<ICombatant*> targets;
targets.push_back(dynamic_cast<ICombatant*>(plr));
Abilities::useNPCSkill(src, skillId, targets);
// initialize response struct
size_t resplen = sizeof(sP_FE2CL_NPC_SKILL_HIT) + result.size;
uint8_t respbuf[CN_PACKET_BUFFER_SIZE];
memset(respbuf, 0, resplen);
sP_FE2CL_NPC_SKILL_HIT* pkt = (sP_FE2CL_NPC_SKILL_HIT*)respbuf;
pkt->iNPC_ID = eggId;
pkt->iSkillID = skillId;
pkt->eST = (int32_t)skill->skillType;
pkt->iTargetCnt = 1;
if(result.size > 0) {
void* attached = (void*)(pkt + 1);
memcpy(attached, result.payload, result.size);
}
NPCManager::sendToViewable(src.getEntity(), pkt, P_FE2CL_NPC_SKILL_HIT, resplen);
}
static void eggStep(CNServer* serv, time_t currTime) {

8
src/Entities.cpp
View File

@@ -40,7 +40,7 @@ sNPCAppearanceData BaseNPC::getAppearanceData() {
sNPCAppearanceData data = {};
data.iAngle = angle;
data.iBarkerType = 0; // unused?
data.iConditionBitFlag = cbf;
data.iConditionBitFlag = 0;
data.iHP = hp;
data.iNPCType = type;
data.iNPC_ID = id;
@@ -50,6 +50,12 @@ sNPCAppearanceData BaseNPC::getAppearanceData() {
return data;
}
sNPCAppearanceData CombatNPC::getAppearanceData() {
sNPCAppearanceData data = BaseNPC::getAppearanceData();
data.iConditionBitFlag = getCompositeCondition();
return data;
}
/*
* Entity coming into view.
*/

22
src/Entities.hpp
View File

@@ -47,7 +47,8 @@ public:
virtual bool addBuff(int, BuffCallback<int, BuffStack*>, BuffCallback<time_t>, BuffStack*) = 0;
virtual Buff* getBuff(int) = 0;
virtual void removeBuff(int) = 0;
virtual void removeBuff(int, int) = 0;
virtual void removeBuff(int, BuffClass) = 0;
virtual void clearBuffs(bool) = 0;
virtual bool hasBuff(int) = 0;
virtual int getCompositeCondition() = 0;
virtual int takeDamage(EntityRef, int) = 0;
@@ -72,7 +73,6 @@ public:
int type;
int hp;
int angle;
int cbf;
bool loopingPath = false;
BaseNPC(int _A, uint64_t iID, int t, int _id) {
@@ -80,7 +80,6 @@ public:
type = t;
hp = 400;
angle = _A;
cbf = 0;
id = _id;
instanceID = iID;
};
@@ -88,7 +87,7 @@ public:
virtual void enterIntoViewOf(CNSocket *sock) override;
virtual void disappearFromViewOf(CNSocket *sock) override;
sNPCAppearanceData getAppearanceData();
virtual sNPCAppearanceData getAppearanceData();
};
struct CombatNPC : public BaseNPC, public ICombatant {
@@ -105,11 +104,13 @@ struct CombatNPC : public BaseNPC, public ICombatant {
std::map<AIState, void (*)(CombatNPC*, time_t)> stateHandlers;
std::map<AIState, void (*)(CombatNPC*, EntityRef)> transitionHandlers;
CombatNPC(int x, int y, int z, int angle, uint64_t iID, int t, int id, int maxHP)
std::unordered_map<int, Buff*> buffs = {};
CombatNPC(int spawnX, int spawnY, int spawnZ, int angle, uint64_t iID, int t, int id, int maxHP)
: BaseNPC(angle, iID, t, id), maxHealth(maxHP) {
spawnX = x;
spawnY = y;
spawnZ = z;
this->spawnX = spawnX;
this->spawnY = spawnY;
this->spawnZ = spawnZ;
kind = EntityKind::COMBAT_NPC;
@@ -117,12 +118,15 @@ struct CombatNPC : public BaseNPC, public ICombatant {
transitionHandlers[AIState::INACTIVE] = {};
}
virtual sNPCAppearanceData getAppearanceData() override;
virtual bool isExtant() override { return hp > 0; }
virtual bool addBuff(int buffId, BuffCallback<int, BuffStack*> onUpdate, BuffCallback<time_t> onTick, BuffStack* stack) override;
virtual Buff* getBuff(int buffId) override;
virtual void removeBuff(int buffId) override;
virtual void removeBuff(int buffId, int buffClass) override;
virtual void removeBuff(int buffId, BuffClass buffClass) override;
virtual void clearBuffs(bool force) override;
virtual bool hasBuff(int buffId) override;
virtual int getCompositeCondition() override;
virtual int takeDamage(EntityRef src, int amt) override;

5
src/Groups.hpp
View File

@@ -3,6 +3,7 @@
#include "EntityRef.hpp"
#include <vector>
#include <assert.h>
struct Group {
std::vector<EntityRef> members;
@@ -14,6 +15,10 @@ struct Group {
});
return filtered;
}
EntityRef getLeader() {
assert(members.size() > 0);
return members[0];
}
Group(EntityRef leader);
};

2
src/Items.cpp
View File

@@ -482,7 +482,7 @@ static void itemUseHandler(CNSocket* sock, CNPacketData* data) {
resp->iSlotNum = request->iSlotNum;
resp->RemainItem = gumball;
resp->iTargetCnt = 1;
resp->eST = EST_NANOSTIMPAK;
resp->eST = (int32_t)SkillType::NANOSTIMPAK;
resp->iSkillID = 144;
int eCSB = ECSB_STIMPAKSLOT1 + request->iNanoSlot;

179
src/MobAI.cpp
View File

@@ -51,13 +51,13 @@ int Mob::takeDamage(EntityRef src, int amt) {
}
// wake up sleeping monster
if (cbf & CSB_BIT_MEZ) {
cbf &= ~CSB_BIT_MEZ;
if (hasBuff(ECSB_MEZ)) {
removeBuff(ECSB_MEZ);
INITSTRUCT(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT, pkt1);
pkt1.eCT = 2;
pkt1.iID = id;
pkt1.iConditionBitFlag = cbf;
pkt1.iConditionBitFlag = getCompositeCondition();
NPCManager::sendToViewable(this, &pkt1, P_FE2CL_CHAR_TIME_BUFF_TIME_OUT, sizeof(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT));
}
@@ -96,13 +96,12 @@ static std::pair<int,int> lerp(int x1, int y1, int x2, int y2, int speed) {
void MobAI::clearDebuff(Mob *mob) {
mob->skillStyle = -1;
mob->cbf = 0;
mob->unbuffTimes.clear();
mob->clearBuffs(false);
INITSTRUCT(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT, pkt1);
pkt1.eCT = 2;
pkt1.iID = mob->id;
pkt1.iConditionBitFlag = mob->cbf;
pkt1.iConditionBitFlag = mob->getCompositeCondition();
NPCManager::sendToViewable(mob, &pkt1, P_FE2CL_CHAR_TIME_BUFF_TIME_OUT, sizeof(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT));
}
@@ -228,7 +227,7 @@ bool MobAI::aggroCheck(Mob *mob, time_t currTime) {
return false;
}
static void dealCorruption(Mob *mob, std::vector<int> targetData, int skillID, int style) {
static void dealCorruption(Mob *mob, std::vector<int> targetData, int skillID, int mobStyle) {
Player *plr = PlayerManager::getPlayer(mob->target);
size_t resplen = sizeof(sP_FE2CL_NPC_SKILL_CORRUPTION_HIT) + targetData[0] * sizeof(sCAttackResult);
@@ -247,7 +246,7 @@ static void dealCorruption(Mob *mob, std::vector<int> targetData, int skillID, i
resp->iNPC_ID = mob->id;
resp->iSkillID = skillID;
resp->iStyle = style;
resp->iStyle = mobStyle;
resp->iValue1 = plr->x;
resp->iValue2 = plr->y;
resp->iValue3 = plr->z;
@@ -281,26 +280,38 @@ static void dealCorruption(Mob *mob, std::vector<int> targetData, int skillID, i
respdata[i].iActiveNanoSlotNum = n;
respdata[i].iNanoID = plr->activeNano;
int style2 = Nanos::nanoStyle(plr->activeNano);
if (style2 == -1) { // no nano
int nanoStyle = Nanos::nanoStyle(plr->activeNano);
if (nanoStyle == -1) { // no nano
respdata[i].iHitFlag = HF_BIT_STYLE_TIE;
respdata[i].iDamage = Abilities::SkillTable[skillID].values[0][0] * PC_MAXHEALTH((int)mob->data["m_iNpcLevel"]) / 1500;
} else if (style == style2) {
} else if (mobStyle == nanoStyle) {
respdata[i].iHitFlag = HF_BIT_STYLE_TIE;
respdata[i].iDamage = 0;
respdata[i].iNanoStamina = plr->Nanos[plr->activeNano].iStamina;
} else if (style - style2 == 1 || style2 - style == 2) {
} else if (mobStyle - nanoStyle == 1 || nanoStyle - mobStyle == 2) {
respdata[i].iHitFlag = HF_BIT_STYLE_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
// TODO ABILITIES
/*std::vector<int> targetData2 = {1, mob->id, 0, 0, 0};
for (auto& pwr : Abilities::Powers)
if (pwr.skillType == EST_DAMAGE)
pwr.handle(sock, targetData2, plr->activeNano, skillID, 0, 200);*/
SkillData skill = {
SkillType::DAMAGE, // skillType
SkillEffectTarget::POINT, // effectTarget
1, // effectType
SkillTargetType::MOBS, // targetType
SkillDrainType::ACTIVE, // drainType
0, // effectArea
{0, 0, 0, 0}, // batteryUse
{0, 0, 0, 0}, // durationTime
{0, 0, 0}, // valueTypes (unused)
{
{200, 200, 200, 200},
{200, 200, 200, 200},
{200, 200, 200, 200},
}
};
Abilities::useNanoSkill(sock, &skill, *plr->getActiveNano(), { mob });
} else {
respdata[i].iHitFlag = HF_BIT_STYLE_LOSE;
respdata[i].iDamage = Abilities::SkillTable[skillID].values[0][0] * PC_MAXHEALTH((int)mob->data["m_iNpcLevel"]) / 1500;
@@ -327,12 +338,6 @@ static void dealCorruption(Mob *mob, std::vector<int> targetData, int skillID, i
}
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
@@ -347,7 +352,7 @@ static void useAbilities(Mob *mob, time_t currTime) {
if (mob->skillStyle == -2) { // eruption hit
int skillID = (int)mob->data["m_iMegaType"];
std::vector<int> targetData = {0, 0, 0, 0, 0};
std::vector<ICombatant*> targets{};
// find the players within range of eruption
for (auto it = mob->viewableChunks.begin(); it != mob->viewableChunks.end(); it++) {
@@ -357,26 +362,22 @@ static void useAbilities(Mob *mob, time_t currTime) {
if (ref.kind != EntityKind::PLAYER)
continue;
CNSocket *s= ref.sock;
CNSocket *s = ref.sock;
Player *plr = PlayerManager::getPlayer(s);
if (plr->HP <= 0)
if (!plr->isAlive())
continue;
int distance = hypot(mob->hitX - plr->x, mob->hitY - plr->y);
if (distance < Abilities::SkillTable[skillID].effectArea) {
targetData[0] += 1;
targetData[targetData[0]] = plr->iID;
if (targetData[0] > 3) // make sure not to have more than 4
targets.push_back(plr);
if (targets.size() > 3) // make sure not to have more than 4
break;
}
}
}
// TODO ABILITIES
/*for (auto& pwr : Abilities::Powers)
if (pwr.skillType == Abilities::SkillTable[skillID].skillType)
pwr.handle(mob->id, targetData, skillID, Abilities::SkillTable[skillID].durationTime[0], Abilities::SkillTable[skillID].powerIntensity[0]);*/
Abilities::useNPCSkill(mob->id, skillID, targets);
mob->skillStyle = -3; // eruption cooldown
mob->nextAttack = currTime + 1000;
return;
@@ -394,14 +395,11 @@ static void useAbilities(Mob *mob, time_t currTime) {
if (random < prob1) { // active skill hit
int skillID = (int)mob->data["m_iActiveSkill1"];
// TODO ABILITIES
//std::vector<int> targetData = {1, plr->iID, 0, 0, 0};
//for (auto& pwr : Abilities::Powers)
// if (pwr.skillType == Abilities::SkillTable[skillID].skillType) {
// if (pwr.bitFlag != 0 && (plr->iConditionBitFlag & pwr.bitFlag))
// return; // prevent debuffing a player twice
// pwr.handle(mob->id, targetData, skillID, Abilities::SkillTable[skillID].durationTime[0], Abilities::SkillTable[skillID].powerIntensity[0]);
// }
SkillData* skill = &Abilities::SkillTable[skillID];
int debuffID = Abilities::getCSTBFromST(skill->skillType);
if(plr->hasBuff(debuffID))
return; // prevent debuffing a player twice
Abilities::useNPCSkill(mob->getRef(), skillID, { plr });
mob->nextAttack = currTime + (int)mob->data["m_iDelayTime"] * 100;
return;
}
@@ -442,31 +440,6 @@ static void useAbilities(Mob *mob, time_t currTime) {
return;
}
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->id;
pkt->eCT = 4; // mob
pkt->iTB_ID = ECSB_BOUNDINGBALL;
drain->eCT = 4;
drain->iID = mob->id;
drain->iDamage = amount;
drain->iHP = mob->hp -= amount;
NPCManager::sendToViewable(mob, (void*)&respbuf, P_FE2CL_CHAR_TIME_BUFF_TIME_TICK, resplen);
if (mob->hp <= 0)
mob->transition(AIState::DEAD, mob->target);
}
void MobAI::incNextMovement(Mob* mob, time_t currTime) {
if (currTime == 0)
currTime = getTime();
@@ -553,38 +526,27 @@ void MobAI::combatStep(CombatNPC* npc, time_t currTime) {
return;
}
// drain
if (self->skillStyle < 0 && (self->lastDrainTime == 0 || currTime - self->lastDrainTime >= 1000)
&& self->cbf & CSB_BIT_BOUNDINGBALL) {
drainMobHP(self, self->maxHealth / 20); // lose 5% every second
self->lastDrainTime = currTime;
}
// tick buffs
auto it = npc->buffs.begin();
while(it != npc->buffs.end()) {
Buff* buff = (*it).second;
buff->combatTick(currTime);
// if drain killed the mob, return early
if (self->hp <= 0)
return;
// if mob state changed, end the step
if(self->state != AIState::COMBAT)
return;
// unbuffing
std::unordered_map<int32_t, time_t>::iterator it = self->unbuffTimes.begin();
while (it != self->unbuffTimes.end()) {
if (currTime >= it->second) {
self->cbf &= ~it->first;
INITSTRUCT(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT, pkt1);
pkt1.eCT = 2;
pkt1.iID = self->id;
pkt1.iConditionBitFlag = self->cbf;
NPCManager::sendToViewable(self, &pkt1, P_FE2CL_CHAR_TIME_BUFF_TIME_OUT, sizeof(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT));
it = self->unbuffTimes.erase(it);
} else {
it++;
buff->tick(currTime);
if(buff->isStale()) {
// garbage collect
it = npc->buffs.erase(it);
delete buff;
}
else it++;
}
// skip attack if stunned or asleep
if (self->cbf & (CSB_BIT_STUN|CSB_BIT_MEZ)) {
if (self->hasBuff(ECSB_STUN) || self->hasBuff(ECSB_MEZ)) {
self->skillStyle = -1; // in this case we also reset the any outlying abilities the mob might be winding up.
return;
}
@@ -600,6 +562,7 @@ void MobAI::combatStep(CombatNPC* npc, time_t currTime) {
}
int distanceToTravel = INT_MAX;
int speed = self->speed;
// movement logic: move when out of range but don't move while casting a skill
if (distance > mobRange && self->skillStyle == -1) {
if (self->nextMovement != 0 && currTime < self->nextMovement)
@@ -609,8 +572,8 @@ void MobAI::combatStep(CombatNPC* npc, time_t currTime) {
self->nextAttack = 0;
// halve movement speed if snared
if (self->cbf & CSB_BIT_DN_MOVE_SPEED)
self->speed /= 2;
if (self->hasBuff(ECSB_DN_MOVE_SPEED))
speed /= 2;
int targetX = plr->x;
int targetY = plr->y;
@@ -619,9 +582,9 @@ void MobAI::combatStep(CombatNPC* npc, time_t currTime) {
targetY += self->offsetY*distance/(self->idleRange + 1);
}
distanceToTravel = std::min(distance-mobRange+1, self->speed*2/5);
distanceToTravel = std::min(distance-mobRange+1, speed*2/5);
auto targ = lerp(self->x, self->y, targetX, targetY, distanceToTravel);
if (distanceToTravel < self->speed*2/5 && currTime >= self->nextAttack)
if (distanceToTravel < speed*2/5 && currTime >= self->nextAttack)
self->nextAttack = 0;
NPCManager::updateNPCPosition(self->id, targ.first, targ.second, self->z, self->instanceID, self->angle);
@@ -629,7 +592,7 @@ void MobAI::combatStep(CombatNPC* npc, time_t currTime) {
INITSTRUCT(sP_FE2CL_NPC_MOVE, pkt);
pkt.iNPC_ID = self->id;
pkt.iSpeed = self->speed;
pkt.iSpeed = speed;
pkt.iToX = self->x = targ.first;
pkt.iToY = self->y = targ.second;
pkt.iToZ = plr->z;
@@ -715,7 +678,7 @@ void MobAI::roamingStep(CombatNPC* npc, time_t currTime) {
farY = std::clamp(farY, yStart, yStart + self->idleRange);
// halve movement speed if snared
if (self->cbf & CSB_BIT_DN_MOVE_SPEED)
if (self->hasBuff(ECSB_DN_MOVE_SPEED))
self->speed /= 2;
std::queue<Vec3> queue;
@@ -788,14 +751,10 @@ void MobAI::onRoamStart(CombatNPC* npc, EntityRef src) {
self->hp = self->maxHealth;
self->killedTime = 0;
self->nextAttack = 0;
self->cbf = 0;
// cast a return home heal spell, this is the right way(tm)
// TODO ABILITIES
/*std::vector<int> targetData = { 1, 0, 0, 0, 0 };
for (auto& pwr : Abilities::Powers)
if (pwr.skillType == Abilities::SkillTable[110].skillType)
pwr.handle(self->id, targetData, 110, Abilities::SkillTable[110].durationTime[0], Abilities::SkillTable[110].powerIntensity[0]);*/
Abilities::useNPCSkill(npc->getRef(), 110, { npc });
// clear outlying debuffs
clearDebuff(self);
}
@@ -812,12 +771,9 @@ void MobAI::onCombatStart(CombatNPC* npc, EntityRef src) {
self->roamY = self->y;
self->roamZ = self->z;
int skillID = (int)self->data["m_iPassiveBuff"]; // cast passive
// TODO ABILITIES
/*std::vector<int> targetData = { 1, self->id, 0, 0, 0 };
for (auto& pwr : Abilities::Powers)
if (pwr.skillType == Abilities::SkillTable[skillID].skillType)
pwr.handle(self->id, targetData, skillID, Abilities::SkillTable[skillID].durationTime[0], Abilities::SkillTable[skillID].powerIntensity[0]);*/
int skillID = (int)self->data["m_iPassiveBuff"];
if(skillID != 0) // cast passive
Abilities::useNPCSkill(npc->getRef(), skillID, { npc });
}
void MobAI::onRetreat(CombatNPC* npc, EntityRef src) {
@@ -833,9 +789,8 @@ void MobAI::onDeath(CombatNPC* npc, EntityRef src) {
Mob* self = (Mob*)npc;
self->target = nullptr;
self->cbf = 0;
self->skillStyle = -1;
self->unbuffTimes.clear();
self->clearBuffs(true);
self->killedTime = getTime(); // XXX: maybe introduce a shard-global time for each step?
// check for the edge case where hitting the mob did not aggro it

14
src/MobAI.hpp
View File

@@ -21,8 +21,6 @@ namespace MobAI {
}
struct Mob : public CombatNPC {
// general
std::unordered_map<int32_t,time_t> unbuffTimes = {};
// dead
time_t killedTime = 0;
@@ -52,8 +50,8 @@ struct Mob : public CombatNPC {
// temporary; until we're sure what's what
nlohmann::json data = {};
Mob(int x, int y, int z, int angle, uint64_t iID, int t, nlohmann::json d, int32_t id)
: CombatNPC(x, y, z, angle, iID, t, id, d["m_iHP"]),
Mob(int spawnX, int spawnY, int spawnZ, int angle, uint64_t iID, int t, nlohmann::json d, int32_t id)
: CombatNPC(spawnX, spawnY, spawnZ, angle, iID, t, id, d["m_iHP"]),
sightRange(d["m_iSightRange"]) {
state = AIState::ROAMING;
@@ -64,15 +62,13 @@ struct Mob : public CombatNPC {
idleRange = (int)data["m_iIdleRange"];
level = data["m_iNpcLevel"];
roamX = x;
roamY = y;
roamZ = z;
roamX = spawnX;
roamY = spawnY;
roamZ = spawnZ;
offsetX = 0;
offsetY = 0;
cbf = 0;
// NOTE: there appear to be discrepancies in the dump
hp = maxHealth;

43
src/NPCManager.cpp
View File

@@ -122,16 +122,15 @@ static void npcUnsummonHandler(CNSocket* sock, CNPacketData* data) {
}
// type must already be checked and updateNPCPosition() must be called on the result
BaseNPC *NPCManager::summonNPC(int x, int y, int z, uint64_t instance, int type, bool respawn, bool baseInstance) {
BaseNPC *NPCManager::summonNPC(int spawnX, int spawnY, int spawnZ, uint64_t instance, int type, bool respawn, bool baseInstance) {
uint64_t inst = baseInstance ? MAPNUM(instance) : instance;
//assert(nextId < INT32_MAX);
int id = nextId--;
int team = NPCData[type]["m_iTeam"];
BaseNPC *npc = nullptr;
if (team == 2) {
npc = new Mob(x, y, z, inst, type, NPCData[type], id);
npc = new Mob(spawnX, spawnY, spawnZ, inst, type, NPCData[type], id);
// re-enable respawning, if desired
((Mob*)npc)->summoned = !respawn;
@@ -294,57 +293,55 @@ BaseNPC* NPCManager::getNearestNPC(std::set<Chunk*>* chunks, int X, int Y, int Z
return npc;
}
// TODO: Move this to MobAI, possibly
// TODO: Move this to separate file in ai/ subdir when implementing more events
#pragma region NPCEvents
// summon right arm and stage 2 body
static void lordFuseStageTwo(CNSocket *sock, BaseNPC *npc) {
static void lordFuseStageTwo(CombatNPC *npc) {
Mob *oldbody = (Mob*)npc; // adaptium, stun
Player *plr = PlayerManager::getPlayer(sock);
std::cout << "Lord Fuse stage two" << std::endl;
// Fuse doesn't move
// Blastons, Heal
Mob *newbody = (Mob*)NPCManager::summonNPC(oldbody->x, oldbody->y, oldbody->z, plr->instanceID, 2467);
Mob *newbody = (Mob*)NPCManager::summonNPC(oldbody->x, oldbody->y, oldbody->z, oldbody->instanceID, 2467);
newbody->angle = oldbody->angle;
NPCManager::updateNPCPosition(newbody->id, newbody->x, newbody->y, newbody->z,
plr->instanceID, oldbody->angle);
NPCManager::updateNPCPosition(newbody->id, newbody->spawnX, newbody->spawnY, newbody->spawnZ,
oldbody->instanceID, oldbody->angle);
// right arm, Adaptium, Stun
Mob *arm = (Mob*)NPCManager::summonNPC(oldbody->x - 600, oldbody->y, oldbody->z, plr->instanceID, 2469);
Mob *arm = (Mob*)NPCManager::summonNPC(oldbody->x - 600, oldbody->y, oldbody->z, oldbody->instanceID, 2469);
arm->angle = oldbody->angle;
NPCManager::updateNPCPosition(arm->id, arm->x, arm->y, arm->z,
plr->instanceID, oldbody->angle);
NPCManager::updateNPCPosition(arm->id, arm->spawnX, arm->spawnY, arm->spawnZ,
oldbody->instanceID, oldbody->angle);
}
// summon left arm and stage 3 body
static void lordFuseStageThree(CNSocket *sock, BaseNPC *npc) {
static void lordFuseStageThree(CombatNPC *npc) {
Mob *oldbody = (Mob*)npc;
Player *plr = PlayerManager::getPlayer(sock);
std::cout << "Lord Fuse stage three" << std::endl;
// Cosmix, Damage Point
Mob *newbody = (Mob*)NPCManager::summonNPC(oldbody->x, oldbody->y, oldbody->z, plr->instanceID, 2468);
Mob *newbody = (Mob*)NPCManager::summonNPC(oldbody->x, oldbody->y, oldbody->z, oldbody->instanceID, 2468);
newbody->angle = oldbody->angle;
NPCManager::updateNPCPosition(newbody->id, newbody->x, newbody->y, newbody->z,
plr->instanceID, oldbody->angle);
NPCManager::updateNPCPosition(newbody->id, newbody->spawnX, newbody->spawnY, newbody->spawnZ,
newbody->instanceID, oldbody->angle);
// Blastons, Heal
Mob *arm = (Mob*)NPCManager::summonNPC(oldbody->x + 600, oldbody->y, oldbody->z, plr->instanceID, 2470);
Mob *arm = (Mob*)NPCManager::summonNPC(oldbody->x + 600, oldbody->y, oldbody->z, oldbody->instanceID, 2470);
arm->angle = oldbody->angle;
NPCManager::updateNPCPosition(arm->id, arm->x, arm->y, arm->z,
plr->instanceID, oldbody->angle);
NPCManager::updateNPCPosition(arm->id, arm->spawnX, arm->spawnY, arm->spawnZ,
arm->instanceID, oldbody->angle);
}
std::vector<NPCEvent> NPCManager::NPCEvents = {
NPCEvent(2466, ON_KILLED, lordFuseStageTwo),
NPCEvent(2467, ON_KILLED, lordFuseStageThree),
NPCEvent(2466, AIState::DEAD, lordFuseStageTwo),
NPCEvent(2467, AIState::DEAD, lordFuseStageThree),
};
#pragma endregion NPCEvents
@@ -376,5 +373,5 @@ void NPCManager::init() {
REGISTER_SHARD_PACKET(P_CL2FE_REQ_NPC_UNSUMMON, npcUnsummonHandler);
REGISTER_SHARD_PACKET(P_CL2FE_REQ_BARKER, npcBarkHandler);
REGISTER_SHARD_TIMER(step, 200);
REGISTER_SHARD_TIMER(step, MS_PER_COMBAT_TICK);
}

13
src/NPCManager.hpp
View File

@@ -14,20 +14,15 @@
#define RESURRECT_HEIGHT 400
enum Trigger {
ON_KILLED,
ON_COMBAT
};
typedef void (*NPCEventHandler)(CNSocket*, BaseNPC*);
typedef void (*NPCEventHandler)(CombatNPC*);
struct NPCEvent {
int32_t npcType;
int trigger;
AIState triggerState;
NPCEventHandler handler;
NPCEvent(int32_t t, int tr, NPCEventHandler hndlr)
: npcType(t), trigger(tr), handler(hndlr) {}
NPCEvent(int32_t t, AIState tr, NPCEventHandler hndlr)
: npcType(t), triggerState(tr), handler(hndlr) {}
};
namespace NPCManager {

45
src/Nanos.cpp
View File

@@ -69,43 +69,6 @@ void Nanos::addNano(CNSocket* sock, int16_t nanoID, int16_t slot, bool spendfm)
PlayerManager::sendToViewable(sock, resp2, P_FE2CL_REP_PC_CHANGE_LEVEL);
}
std::vector<ICombatant*> Nanos::applyNanoBuff(SkillData* skill, Player* plr) {
assert(skill->drainType == SkillDrainType::PASSIVE);
EntityRef self = PlayerManager::getSockFromID(plr->iID);
int timeBuffId = Abilities::getCSTBFromST(skill->skillType);
int boost = Nanos::getNanoBoost(plr) ? 3 : 0;
int value = skill->values[0][boost];
BuffStack passiveBuff = {
1, // passive nano buffs refreshed every tick
value,
self,
BuffClass::NONE, // overwritten per target
};
// for passive skills, using just the player as a target is fine
// this is because the group skill type will ignore the count,
// and the other option is single-target
std::vector<ICombatant*> targets = Abilities::matchTargets(dynamic_cast<ICombatant*>(plr), skill, 1, &plr->iID);
std::vector<ICombatant*> affected;
for (ICombatant* target : targets) {
passiveBuff.buffStackClass = target == plr ? BuffClass::NANO : BuffClass::GROUP_NANO;
if(target->addBuff(timeBuffId,
[](EntityRef self, Buff* buff, int status, BuffStack* stack) {
Buffs::timeBuffUpdate(self, buff, status, stack);
},
[](EntityRef self, Buff* buff, time_t currTime) {
// no-op
},
&passiveBuff)) affected.push_back(target);
}
return affected;
}
void Nanos::summonNano(CNSocket *sock, int slot, bool silent) {
INITSTRUCT(sP_FE2CL_REP_NANO_ACTIVE_SUCC, resp);
resp.iActiveNanoSlotNum = slot;
@@ -130,8 +93,10 @@ void Nanos::summonNano(CNSocket *sock, int slot, bool silent) {
if (slot != -1 && skill != nullptr && skill->drainType == SkillDrainType::PASSIVE) {
// passive buff effect
resp.eCSTB___Add = 1;
std::vector<ICombatant*> affectedCombatants = applyNanoBuff(skill, plr);
if(!affectedCombatants.empty()) Abilities::useNanoSkill(sock, skill, nano, affectedCombatants);
ICombatant* src = dynamic_cast<ICombatant*>(plr);
int32_t targets[] = { plr->iID };
std::vector<ICombatant*> affectedCombatants = Abilities::matchTargets(src, skill, 1, targets);
Abilities::useNanoSkill(sock, skill, nano, affectedCombatants);
}
if (!silent) // silent nano death but only for the summoning player
@@ -312,7 +277,7 @@ static void nanoSkillUseHandler(CNSocket* sock, CNPacketData* data) {
std::vector<ICombatant*> targetData = Abilities::matchTargets(plrCombatant, skillData, pkt->iTargetCnt, (int32_t*)(pkt + 1));
Abilities::useNanoSkill(sock, skillData, nano, targetData);
if (plr->Nanos[plr->activeNano].iStamina < 0)
if (plr->Nanos[plr->activeNano].iStamina <= 0)
summonNano(sock, -1);
}

1
src/Nanos.hpp
View File

@@ -26,5 +26,4 @@ namespace Nanos {
void summonNano(CNSocket* sock, int slot, bool silent = false);
int nanoStyle(int nanoID);
bool getNanoBoost(Player* plr);
std::vector<ICombatant*> applyNanoBuff(SkillData* skill, Player* plr);
}

3
src/Player.hpp
View File

@@ -92,7 +92,8 @@ struct Player : public Entity, public ICombatant {
virtual bool addBuff(int buffId, BuffCallback<int, BuffStack*> onUpdate, BuffCallback<time_t> onTick, BuffStack* stack) override;
virtual Buff* getBuff(int buffId) override;
virtual void removeBuff(int buffId) override;
virtual void removeBuff(int buffId, int buffClass) override;
virtual void removeBuff(int buffId, BuffClass buffClass) override;
virtual void clearBuffs(bool force) override;
virtual bool hasBuff(int buffId) override;
virtual int getCompositeCondition() override;
virtual int takeDamage(EntityRef src, int amt) override;

9
src/PlayerManager.cpp
View File

@@ -338,6 +338,14 @@ static void enterPlayer(CNSocket* sock, CNPacketData* data) {
delete lm;
}
void PlayerManager::sendToGroup(CNSocket* sock, void* buf, uint32_t type, size_t size) {
Player* plr = getPlayer(sock);
if (plr->group == nullptr)
return;
for(const EntityRef& ref : plr->group->filter(EntityKind::PLAYER))
ref.sock->sendPacket(buf, type, size);
}
void PlayerManager::sendToViewable(CNSocket* sock, void* buf, uint32_t type, size_t size) {
Player* plr = getPlayer(sock);
for (auto it = plr->viewableChunks.begin(); it != plr->viewableChunks.end(); it++) {
@@ -408,6 +416,7 @@ static void revivePlayer(CNSocket* sock, CNPacketData* data) {
default: // plain respawn
plr->HP = PC_MAXHEALTH(plr->level) / 2;
plr->clearBuffs(false);
// fallthrough
case ePCRegenType::Unstick: // warp away
move = true;

1
src/PlayerManager.hpp
View File

@@ -33,6 +33,7 @@ namespace PlayerManager {
CNSocket *getSockFromAny(int by, int id, int uid, std::string firstname, std::string lastname);
WarpLocation *getRespawnPoint(Player *plr);
void sendToGroup(CNSocket *sock, void* buf, uint32_t type, size_t size);
void sendToViewable(CNSocket *sock, void* buf, uint32_t type, size_t size);
// TODO: unify this under the new Entity system

43
src/core/Defines.hpp
View File

@@ -46,49 +46,8 @@ enum class ePCRegenType {
End
};
// nano powers
// nano power flags
enum {
EST_NONE = 0,
EST_DAMAGE = 1,
EST_HEAL_HP = 2,
EST_KNOCKDOWN = 3,
EST_SLEEP = 4,
EST_SNARE = 5,
EST_HEAL_STAMINA = 6,
EST_STAMINA_SELF = 7,
EST_STUN = 8,
EST_WEAPONSLOW = 9,
EST_JUMP = 10,
EST_RUN = 11,
EST_STEALTH = 12,
EST_SWIM = 13,
EST_MINIMAPENEMY = 14,
EST_MINIMAPTRESURE = 15,
EST_PHOENIX = 16,
EST_PROTECTBATTERY = 17,
EST_PROTECTINFECTION = 18,
EST_REWARDBLOB = 19,
EST_REWARDCASH = 20,
EST_BATTERYDRAIN = 21,
EST_CORRUPTIONATTACK = 22,
EST_INFECTIONDAMAGE = 23,
EST_KNOCKBACK = 24,
EST_FREEDOM = 25,
EST_PHOENIX_GROUP = 26,
EST_RECALL = 27,
EST_RECALL_GROUP = 28,
EST_RETROROCKET_SELF = 29,
EST_BLOODSUCKING = 30,
EST_BOUNDINGBALL = 31,
EST_INVULNERABLE = 32,
EST_NANOSTIMPAK = 33,
EST_RETURNHOMEHEAL = 34,
EST_BUFFHEAL = 35,
EST_EXTRABANK = 36,
EST__END = 37,
EST_CORRUPTIONATTACKWIN = 38,
EST_CORRUPTIONATTACKLOSE = 39,
ECSB_NONE = 0,
ECSB_UP_MOVE_SPEED = 1,
ECSB_UP_SWIM_SPEED = 2,

1
src/servers/CNShardServer.hpp
View File

@@ -8,6 +8,7 @@
#define REGISTER_SHARD_PACKET(pactype, handlr) CNShardServer::ShardPackets[pactype] = handlr;
#define REGISTER_SHARD_TIMER(handlr, delta) CNShardServer::Timers.push_back(TimerEvent(handlr, delta));
#define MS_PER_PLAYER_TICK 500
#define MS_PER_COMBAT_TICK 200
class CNShardServer : public CNServer {
private: