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/*
* The Mana Server
* Copyright (C) 2004-2010 The Mana World Development Team
*
* This file is part of The Mana Server.
*
* The Mana Server is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* any later version.
*
* The Mana Server is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with The Mana Server. If not, see <http://www.gnu.org/licenses/>.
*/
#include <cassert>
#include "game-server/being.h"
#include "defines.h"
#include "common/configuration.h"
#include "game-server/attributemanager.h"
#include "game-server/character.h"
#include "game-server/collisiondetection.h"
#include "game-server/eventlistener.h"
#include "game-server/mapcomposite.h"
#include "game-server/effect.h"
#include "game-server/statuseffect.h"
#include "game-server/statusmanager.h"
#include "utils/logger.h"
#include "utils/speedconv.h"
Being::Being(ThingType type):
Actor(type),
mAction(STAND),
mTarget(NULL),
mDirection(0)
{
const AttributeScopes &attr = attributeManager->getAttributeInfoForType(ATTR_BEING);
LOG_DEBUG("Being creation: initialisation of " << attr.size() << " attributes.");
for (AttributeScopes::const_iterator it1 = attr.begin(),
it1_end = attr.end();
it1 != it1_end;
++it1)
{
if (mAttributes.count(it1->first))
LOG_WARN("Redefinition of attribute '" << it1->first << "'!");
LOG_DEBUG("Attempting to create attribute '" << it1->first << "'.");
mAttributes.insert(std::make_pair(it1->first,
Attribute(*it1->second)));
}
// TODO: Way to define default base values?
// Should this be handled by the virtual modifiedAttribute?
// URGENT either way
#if 0
// Initialize element resistance to 100 (normal damage).
for (i = BASE_ELEM_BEGIN; i < BASE_ELEM_END; ++i)
{
mAttributes[i] = Attribute(TY_ST);
mAttributes[i].setBase(100);
}
#endif
}
int Being::damage(Actor *source, const Damage &damage)
{
if (mAction == DEAD)
return 0;
int HPloss = damage.base;
if (damage.delta)
HPloss += rand() * (damage.delta + 1) / RAND_MAX;
// TODO magical attacks and associated elemental modifiers
switch (damage.type)
{
case DAMAGE_PHYSICAL:
if (!damage.trueStrike &&
rand()%((int) getModifiedAttribute(ATTR_DODGE) + 1) >
rand()%(damage.cth + 1))
{
HPloss = 0;
// TODO Process triggers for a dodged physical attack here.
// If there is an attacker included, also process triggers for the attacker (failed physical strike)
}
else
{
HPloss = HPloss * (1.0 - (0.0159375f *
getModifiedAttribute(ATTR_DEFENSE)) /
(1.0 + 0.017 *
getModifiedAttribute(ATTR_DEFENSE))) +
(rand()%((HPloss >> 4) + 1));
// TODO Process triggers for receiving damage here.
// If there is an attacker included, also process triggers for the attacker (successful physical strike)
}
break;
case DAMAGE_MAGICAL:
#if 0
getModifiedAttribute(BASE_ELEM_BEGIN + damage.element);
#else
LOG_WARN("Attempt to use magical type damage! This has not been"
"implemented yet and should not be used!");
HPloss = 0;
#endif
case DAMAGE_DIRECT:
break;
default:
LOG_WARN("Unknown damage type '" << damage.type << "'!");
break;
}
if (HPloss > 0)
{
mHitsTaken.push_back(HPloss);
Attribute &HP = mAttributes.at(ATTR_HP);
LOG_DEBUG("Being " << getPublicID() << " suffered " << HPloss
<< " damage. HP: "
<< HP.getModifiedAttribute() << "/"
<< mAttributes.at(ATTR_MAX_HP).getModifiedAttribute());
setAttribute(ATTR_HP, HP.getBase() - HPloss);
// No HP regen after being hit if this is set.
setTimerSoft(T_B_HP_REGEN,
Configuration::getValue("game_hpRegenBreakAfterHit", 0));
}
else
{
HPloss = 0;
}
return HPloss;
}
void Being::heal()
{
Attribute &hp = mAttributes.at(ATTR_HP);
Attribute &maxHp = mAttributes.at(ATTR_MAX_HP);
if (maxHp.getModifiedAttribute() == hp.getModifiedAttribute())
return; // Full hp, do nothing.
// Reset all modifications present in hp.
hp.clearMods();
setAttribute(ATTR_HP, maxHp.getModifiedAttribute());
}
void Being::heal(int gain)
{
Attribute &hp = mAttributes.at(ATTR_HP);
Attribute &maxHp = mAttributes.at(ATTR_MAX_HP);
if (maxHp.getModifiedAttribute() == hp.getModifiedAttribute())
return; // Full hp, do nothing.
// Cannot go over maximum hitpoints.
setAttribute(ATTR_HP, hp.getBase() + gain);
if (hp.getModifiedAttribute() > maxHp.getModifiedAttribute())
setAttribute(ATTR_HP, maxHp.getModifiedAttribute());
}
void Being::died()
{
if (mAction == DEAD)
return;
LOG_DEBUG("Being " << getPublicID() << " died.");
setAction(DEAD);
// dead beings stay where they are
clearDestination();
// reset target
mTarget = NULL;
for (Listeners::iterator i = mListeners.begin(),
i_end = mListeners.end(); i != i_end;)
{
const EventListener &l = **i;
++i; // In case the listener removes itself from the list on the fly.
if (l.dispatch->died) l.dispatch->died(&l, this);
}
}
void Being::setDestination(const Point &dst)
{
mDst = dst;
raiseUpdateFlags(UPDATEFLAG_NEW_DESTINATION);
mPath.clear();
}
Path Being::findPath()
{
mOld = getPosition();
Map *map = getMap()->getMap();
int tileWidth = map->getTileWidth();
int tileHeight = map->getTileHeight();
int startX = mOld.x / tileWidth, startY = mOld.y / tileHeight;
int destX = mDst.x / tileWidth, destY = mDst.y / tileHeight;
return map->findPath(startX, startY, destX, destY, getWalkMask());
}
void Being::move()
{
// Immobile beings cannot move.
if (!checkAttributeExists(ATTR_MOVE_SPEED_RAW)
|| !getModifiedAttribute(ATTR_MOVE_SPEED_RAW))
return;
mOld = getPosition();
if (mActionTime > 100)
{
// Current move has not yet ended
mActionTime -= 100;
return;
}
Map *map = getMap()->getMap();
int tileWidth = map->getTileWidth();
int tileHeight = map->getTileHeight();
int tileSX = mOld.x / tileWidth, tileSY = mOld.y / tileHeight;
int tileDX = mDst.x / tileWidth, tileDY = mDst.y / tileHeight;
if (tileSX == tileDX && tileSY == tileDY)
{
if (mAction == WALK)
setAction(STAND);
// Moving while staying on the same tile is free
setPosition(mDst);
mActionTime = 0;
return;
}
/* If no path exists, the for-loop won't be entered. Else a path for the
* current destination has already been calculated.
* The tiles in this path have to be checked for walkability,
* in case there have been changes. The 'getWalk' method of the Map
* class has been used, because that seems to be the most logical
* place extra functionality will be added.
*/
for (PathIterator pathIterator = mPath.begin();
pathIterator != mPath.end(); pathIterator++)
{
if (!map->getWalk(pathIterator->x, pathIterator->y, getWalkMask()))
{
mPath.clear();
break;
}
}
if (mPath.empty())
{
// No path exists: the walkability of cached path has changed, the
// destination has changed, or a path was never set.
mPath = findPath();
}
if (mPath.empty())
{
if (mAction == WALK)
setAction(STAND);
// no path was found
mDst = mOld;
mActionTime = 0;
return;
}
setAction(WALK);
Position prev(tileSX, tileSY);
Point pos;
do
{
Position next = mPath.front();
mPath.pop_front();
// SQRT2 is used for diagonal movement.
mActionTime += (prev.x == next.x || prev.y == next.y) ?
getModifiedAttribute(ATTR_MOVE_SPEED_RAW) :
getModifiedAttribute(ATTR_MOVE_SPEED_RAW) * SQRT2;
if (mPath.empty())
{
// skip last tile center
pos = mDst;
break;
}
// Position the actor in the middle of the tile for pathfinding purposes
pos.x = next.x * tileWidth + (tileWidth / 2);
pos.y = next.y * tileHeight + (tileHeight / 2);
}
while (mActionTime < 100);
setPosition(pos);
mActionTime = mActionTime > 100 ? mActionTime - 100 : 0;
}
int Being::directionToAngle(int direction)
{
switch (direction)
{
case DIRECTION_UP: return 90;
case DIRECTION_DOWN: return 270;
case DIRECTION_RIGHT: return 180;
case DIRECTION_LEFT:
default: return 0;
}
}
int Being::performAttack(Being *target, const Damage &damage) {
return performAttack(target, damage.range, damage);
}
int Being::performAttack(Being *target, unsigned range, const Damage &damage)
{
// check target legality
if (!target || target == this || target->getAction() == DEAD
|| !target->canFight())
return -1;
if (getMap()->getPvP() == PVP_NONE && target->getType() == OBJECT_CHARACTER
&& getType() == OBJECT_CHARACTER)
return -1;
// check if target is in range using the pythagorean theorem
int distx = this->getPosition().x - target->getPosition().x;
int disty = this->getPosition().y - target->getPosition().y;
int distSquare = (distx * distx + disty * disty);
int maxDist = range + target->getSize();
if (maxDist * maxDist < distSquare)
return -1;
//mActionTime += 1000; // No tick. Auto-attacks should have their own, built-in delays.
return (mTarget->damage(this, damage));
}
void Being::setAction(BeingAction action)
{
mAction = action;
if (action != ATTACK && // The players are informed about these actions
action != WALK) // by other messages
{
raiseUpdateFlags(UPDATEFLAG_ACTIONCHANGE);
}
}
void Being::applyModifier(unsigned int attr, double value, unsigned int layer,
unsigned int duration, unsigned int id)
{
mAttributes.at(attr).add(duration, value, layer, id);
updateDerivedAttributes(attr);
}
bool Being::removeModifier(unsigned int attr, double value, unsigned int layer,
unsigned int id, bool fullcheck)
{
bool ret = mAttributes.at(attr).remove(value, layer, id, fullcheck);
updateDerivedAttributes(attr);
return ret;
}
void Being::setAttribute(unsigned int id, double value)
{
AttributeMap::iterator ret = mAttributes.find(id);
if (ret == mAttributes.end())
{
/*
* The attribute does not yet exist, so we must attempt to create it.
*/
LOG_ERROR("Being: Attempt to access non-existing attribute '"
<< id << "'!");
LOG_WARN("Being: Creation of new attributes dynamically is not "
"implemented yet!");
}
else
{
ret->second.setBase(value);
updateDerivedAttributes(id);
}
}
double Being::getAttribute(unsigned int id) const
{
AttributeMap::const_iterator ret = mAttributes.find(id);
if (ret == mAttributes.end()) return 0;
return ret->second.getBase();
}
double Being::getModifiedAttribute(unsigned int id) const
{
AttributeMap::const_iterator ret = mAttributes.find(id);
if (ret == mAttributes.end()) return 0;
return ret->second.getModifiedAttribute();
}
void Being::setModAttribute(unsigned int, double)
{
// No-op to satisfy shared structure.
// The game-server calculates this manually.
return;
}
bool Being::recalculateBaseAttribute(unsigned int attr)
{
LOG_DEBUG("Received update attribute recalculation request at Being for "
<< attr << ".");
if (!mAttributes.count(attr)) return false;
double newBase = getAttribute(attr);
switch (attr)
{
case ATTR_HP_REGEN:
{
double hpPerSec = getModifiedAttribute(ATTR_VIT) * 0.05;
newBase = (hpPerSec * TICKS_PER_HP_REGENERATION / 10);
}
break;
case ATTR_HP:
double diff;
if ((diff = getModifiedAttribute(ATTR_HP)
- getModifiedAttribute(ATTR_MAX_HP)) > 0)
newBase -= diff;
break;
case ATTR_MAX_HP:
newBase = ((getModifiedAttribute(ATTR_VIT) + 3)
* (getModifiedAttribute(ATTR_VIT) + 20)) * 0.125;
break;
case ATTR_MOVE_SPEED_TPS:
newBase = 3.0 + getModifiedAttribute(ATTR_AGI) * 0.08; // Provisional.
break;
case ATTR_MOVE_SPEED_RAW:
newBase = utils::tpsToRawSpeed(
getModifiedAttribute(ATTR_MOVE_SPEED_TPS));
break;
case ATTR_INV_CAPACITY:
// Provisional
newBase = 2000.0 + getModifiedAttribute(ATTR_STR) * 180.0;
break;
}
if (newBase != getAttribute(attr))
{
setAttribute(attr, newBase);
updateDerivedAttributes(attr);
return true;
}
LOG_DEBUG("No changes to sync for attribute '" << attr << "'.");
return false;
}
void Being::updateDerivedAttributes(unsigned int attr)
{
switch(attr)
{
case ATTR_MAX_HP:
updateDerivedAttributes(ATTR_HP);
case ATTR_HP:
raiseUpdateFlags(UPDATEFLAG_HEALTHCHANGE);
break;
case ATTR_MOVE_SPEED_TPS:
updateDerivedAttributes(ATTR_MOVE_SPEED_RAW);
break;
}
}
void Being::applyStatusEffect(int id, int timer)
{
if (mAction == DEAD)
return;
if (StatusEffect *statusEffect = StatusManager::getStatus(id))
{
Status newStatus;
newStatus.status = statusEffect;
newStatus.time = timer;
mStatus[id] = newStatus;
}
else
{
LOG_ERROR("No status effect with ID " << id);
}
}
void Being::removeStatusEffect(int id)
{
setStatusEffectTime(id, 0);
}
bool Being::hasStatusEffect(int id) const
{
StatusEffects::const_iterator it = mStatus.begin();
while (it != mStatus.end())
{
if (it->second.status->getId() == id)
return true;
it++;
}
return false;
}
unsigned Being::getStatusEffectTime(int id) const
{
StatusEffects::const_iterator it = mStatus.find(id);
if (it != mStatus.end()) return it->second.time;
else return 0;
}
void Being::setStatusEffectTime(int id, int time)
{
StatusEffects::iterator it = mStatus.find(id);
if (it != mStatus.end()) it->second.time = time;
}
void Being::update()
{
//update timers
for (Timers::iterator i = mTimers.begin(); i != mTimers.end(); i++)
{
if (i->second > -1) i->second--;
}
int oldHP = getModifiedAttribute(ATTR_HP);
int newHP = oldHP;
int maxHP = getModifiedAttribute(ATTR_MAX_HP);
// Regenerate HP
if (mAction != DEAD && !isTimerRunning(T_B_HP_REGEN))
{
setTimerHard(T_B_HP_REGEN, TICKS_PER_HP_REGENERATION);
newHP += getModifiedAttribute(ATTR_HP_REGEN);
}
// Cap HP at maximum
if (newHP > maxHP)
{
newHP = maxHP;
}
// Only update HP when it actually changed to avoid network noise
if (newHP != oldHP)
{
setAttribute(ATTR_HP, newHP);
raiseUpdateFlags(UPDATEFLAG_HEALTHCHANGE);
}
// Update lifetime of effects.
for (AttributeMap::iterator it = mAttributes.begin();
it != mAttributes.end();
++it)
if (it->second.tick())
updateDerivedAttributes(it->first);
// Update and run status effects
StatusEffects::iterator it = mStatus.begin();
while (it != mStatus.end())
{
it->second.time--;
if (it->second.time > 0 && mAction != DEAD)
it->second.status->tick(this, it->second.time);
if (it->second.time <= 0 || mAction == DEAD)
{
mStatus.erase(it);
it = mStatus.begin();
}
it++;
}
// Check if being died
if (getModifiedAttribute(ATTR_HP) <= 0 && mAction != DEAD)
died();
}
void Being::setTimerSoft(TimerID id, int value)
{
Timers::iterator i = mTimers.find(id);
if (i == mTimers.end())
{
mTimers[id] = value;
}
else if (i->second < value)
{
i->second = value;
}
}
void Being::setTimerHard(TimerID id, int value)
{
mTimers[id] = value;
}
int Being::getTimer(TimerID id) const
{
Timers::const_iterator i = mTimers.find(id);
return (i == mTimers.end()) ? -1 : i->second;
}
bool Being::isTimerRunning(TimerID id) const
{
return getTimer(id) > 0;
}
bool Being::isTimerJustFinished(TimerID id) const
{
return getTimer(id) == 0;
}
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