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openmw-tes3mp/apps/openmw/mwmechanics/aipackage.cpp

398 lines
14 KiB
C++

#include "aipackage.hpp"
#include <cmath>
#include <components/esm/loadcell.hpp>
#include <components/esm/loadland.hpp>
#include <components/esm/loadmgef.hpp>
#include "../mwbase/world.hpp"
#include "../mwbase/environment.hpp"
#include "../mwworld/action.hpp"
#include "../mwworld/class.hpp"
#include "../mwworld/cellstore.hpp"
#include "../mwworld/inventorystore.hpp"
#include "pathgrid.hpp"
#include "creaturestats.hpp"
#include "movement.hpp"
#include "steering.hpp"
#include "actorutil.hpp"
#include "coordinateconverter.hpp"
#include <osg/Quat>
MWMechanics::AiPackage::~AiPackage() {}
MWMechanics::AiPackage::AiPackage() :
mTimer(AI_REACTION_TIME + 1.0f), // to force initial pathbuild
mTargetActorRefId(""),
mTargetActorId(-1),
mRotateOnTheRunChecks(0),
mIsShortcutting(false),
mShortcutProhibited(false),
mShortcutFailPos()
{
}
MWWorld::Ptr MWMechanics::AiPackage::getTarget() const
{
if (mTargetActorId == -2)
return MWWorld::Ptr();
if (mTargetActorId == -1)
{
MWWorld::Ptr target = MWBase::Environment::get().getWorld()->searchPtr(mTargetActorRefId, false);
if (target.isEmpty())
{
mTargetActorId = -2;
return target;
}
else
mTargetActorId = target.getClass().getCreatureStats(target).getActorId();
}
if (mTargetActorId != -1)
return MWBase::Environment::get().getWorld()->searchPtrViaActorId(mTargetActorId);
else
return MWWorld::Ptr();
}
bool MWMechanics::AiPackage::sideWithTarget() const
{
return false;
}
bool MWMechanics::AiPackage::followTargetThroughDoors() const
{
return false;
}
bool MWMechanics::AiPackage::canCancel() const
{
return true;
}
bool MWMechanics::AiPackage::shouldCancelPreviousAi() const
{
return true;
}
bool MWMechanics::AiPackage::getRepeat() const
{
return false;
}
void MWMechanics::AiPackage::reset()
{
// reset all members
mTimer = AI_REACTION_TIME + 1.0f;
mIsShortcutting = false;
mShortcutProhibited = false;
mShortcutFailPos = ESM::Pathgrid::Point();
mPathFinder.clearPath();
mObstacleCheck.clear();
}
bool MWMechanics::AiPackage::pathTo(const MWWorld::Ptr& actor, const ESM::Pathgrid::Point& dest, float duration, float destTolerance)
{
mTimer += duration; //Update timer
ESM::Position pos = actor.getRefData().getPosition(); //position of the actor
/// Stops the actor when it gets too close to a unloaded cell
//... At current time, this test is unnecessary. AI shuts down when actor is more than 7168
//... units from player, and exterior cells are 8192 units long and wide.
//... But AI processing distance may increase in the future.
if (isNearInactiveCell(pos))
{
actor.getClass().getMovementSettings(actor).mPosition[1] = 0;
return false;
}
// handle path building and shortcutting
ESM::Pathgrid::Point start = pos.pos;
float distToTarget = distance(start, dest);
bool isDestReached = (distToTarget <= destTolerance);
if (!isDestReached && mTimer > AI_REACTION_TIME)
{
if (actor.getClass().isBipedal(actor))
openDoors(actor);
bool wasShortcutting = mIsShortcutting;
bool destInLOS = false;
const MWWorld::Class& actorClass = actor.getClass();
MWBase::World* world = MWBase::Environment::get().getWorld();
// check if actor can move along z-axis
bool actorCanMoveByZ = (actorClass.canSwim(actor) && MWBase::Environment::get().getWorld()->isSwimming(actor))
|| world->isFlying(actor);
// Prohibit shortcuts for AiWander, if the actor can not move in 3 dimensions.
if (actorCanMoveByZ || getTypeId() != TypeIdWander)
mIsShortcutting = shortcutPath(start, dest, actor, &destInLOS, actorCanMoveByZ); // try to shortcut first
if (!mIsShortcutting)
{
if (wasShortcutting || doesPathNeedRecalc(dest, actor.getCell())) // if need to rebuild path
{
mPathFinder.buildSyncedPath(start, dest, actor.getCell(), getPathGridGraph(actor.getCell()));
mRotateOnTheRunChecks = 3;
// give priority to go directly on target if there is minimal opportunity
if (destInLOS && mPathFinder.getPath().size() > 1)
{
// get point just before dest
std::list<ESM::Pathgrid::Point>::const_iterator pPointBeforeDest = mPathFinder.getPath().end();
--pPointBeforeDest;
--pPointBeforeDest;
// if start point is closer to the target then last point of path (excluding target itself) then go straight on the target
if (distance(start, dest) <= distance(dest, *pPointBeforeDest))
{
mPathFinder.clearPath();
mPathFinder.addPointToPath(dest);
}
}
}
if (!mPathFinder.getPath().empty()) //Path has points in it
{
ESM::Pathgrid::Point lastPos = mPathFinder.getPath().back(); //Get the end of the proposed path
if(distance(dest, lastPos) > 100) //End of the path is far from the destination
mPathFinder.addPointToPath(dest); //Adds the final destination to the path, to try to get to where you want to go
}
}
mTimer = 0;
}
if (isDestReached || mPathFinder.checkPathCompleted(pos.pos[0], pos.pos[1])) // if path is finished
{
// turn to destination point
zTurn(actor, getZAngleToPoint(start, dest));
smoothTurn(actor, getXAngleToPoint(start, dest), 0);
return true;
}
else
{
if (mRotateOnTheRunChecks == 0
|| isReachableRotatingOnTheRun(actor, *mPathFinder.getPath().begin())) // to prevent circling around a path point
{
actor.getClass().getMovementSettings(actor).mPosition[1] = 1; // move to the target
if (mRotateOnTheRunChecks > 0) mRotateOnTheRunChecks--;
}
// handle obstacles on the way
evadeObstacles(actor, duration, pos);
}
// turn to next path point by X,Z axes
zTurn(actor, mPathFinder.getZAngleToNext(pos.pos[0], pos.pos[1]));
smoothTurn(actor, mPathFinder.getXAngleToNext(pos.pos[0], pos.pos[1], pos.pos[2]), 0);
return false;
}
void MWMechanics::AiPackage::evadeObstacles(const MWWorld::Ptr& actor, float duration, const ESM::Position& pos)
{
zTurn(actor, mPathFinder.getZAngleToNext(pos.pos[0], pos.pos[1]));
MWMechanics::Movement& movement = actor.getClass().getMovementSettings(actor);
// check if stuck due to obstacles
if (!mObstacleCheck.check(actor, duration)) return;
// first check if obstacle is a door
static float distance = MWBase::Environment::get().getWorld()->getMaxActivationDistance();
const MWWorld::Ptr door = getNearbyDoor(actor, distance);
if (!door.isEmpty() && actor.getClass().isBipedal(actor))
{
openDoors(actor);
}
else
{
mObstacleCheck.takeEvasiveAction(movement);
}
}
void MWMechanics::AiPackage::openDoors(const MWWorld::Ptr& actor)
{
static float distance = MWBase::Environment::get().getWorld()->getMaxActivationDistance();
const MWWorld::Ptr door = getNearbyDoor(actor, distance);
if (door == MWWorld::Ptr())
return;
// note: AiWander currently does not open doors
if (getTypeId() != TypeIdWander && !door.getCellRef().getTeleport() && door.getClass().getDoorState(door) == 0)
{
if ((door.getCellRef().getTrap().empty() && door.getCellRef().getLockLevel() <= 0 ))
{
MWBase::Environment::get().getWorld()->activate(door, actor);
return;
}
const std::string keyId = door.getCellRef().getKey();
if (keyId.empty())
return;
MWWorld::ContainerStore &invStore = actor.getClass().getContainerStore(actor);
MWWorld::Ptr keyPtr = invStore.search(keyId);
if (!keyPtr.isEmpty())
MWBase::Environment::get().getWorld()->activate(door, actor);
}
}
const MWMechanics::PathgridGraph& MWMechanics::AiPackage::getPathGridGraph(const MWWorld::CellStore *cell)
{
const ESM::CellId& id = cell->getCell()->getCellId();
// static cache is OK for now, pathgrids can never change during runtime
typedef std::map<ESM::CellId, std::unique_ptr<MWMechanics::PathgridGraph> > CacheMap;
static CacheMap cache;
CacheMap::iterator found = cache.find(id);
if (found == cache.end())
{
cache.insert(std::make_pair(id, std::unique_ptr<MWMechanics::PathgridGraph>(new MWMechanics::PathgridGraph(cell))));
}
return *cache[id].get();
}
bool MWMechanics::AiPackage::shortcutPath(const ESM::Pathgrid::Point& startPoint, const ESM::Pathgrid::Point& endPoint, const MWWorld::Ptr& actor, bool *destInLOS, bool isPathClear)
{
if (!mShortcutProhibited || (PathFinder::MakeOsgVec3(mShortcutFailPos) - PathFinder::MakeOsgVec3(startPoint)).length() >= PATHFIND_SHORTCUT_RETRY_DIST)
{
// check if target is clearly visible
isPathClear = !MWBase::Environment::get().getWorld()->castRay(
static_cast<float>(startPoint.mX), static_cast<float>(startPoint.mY), static_cast<float>(startPoint.mZ),
static_cast<float>(endPoint.mX), static_cast<float>(endPoint.mY), static_cast<float>(endPoint.mZ));
if (destInLOS != NULL) *destInLOS = isPathClear;
if (!isPathClear)
return false;
// check if an actor can move along the shortcut path
isPathClear = checkWayIsClearForActor(startPoint, endPoint, actor);
}
if (isPathClear) // can shortcut the path
{
mPathFinder.clearPath();
mPathFinder.addPointToPath(endPoint);
return true;
}
return false;
}
bool MWMechanics::AiPackage::checkWayIsClearForActor(const ESM::Pathgrid::Point& startPoint, const ESM::Pathgrid::Point& endPoint, const MWWorld::Ptr& actor)
{
bool actorCanMoveByZ = (actor.getClass().canSwim(actor) && MWBase::Environment::get().getWorld()->isSwimming(actor))
|| MWBase::Environment::get().getWorld()->isFlying(actor);
if (actorCanMoveByZ)
return true;
float actorSpeed = actor.getClass().getSpeed(actor);
float maxAvoidDist = AI_REACTION_TIME * actorSpeed + actorSpeed / MAX_VEL_ANGULAR_RADIANS * 2; // *2 - for reliability
osg::Vec3f::value_type distToTarget = osg::Vec3f(static_cast<float>(endPoint.mX), static_cast<float>(endPoint.mY), 0).length();
float offsetXY = distToTarget > maxAvoidDist*1.5? maxAvoidDist : maxAvoidDist/2;
bool isClear = checkWayIsClear(PathFinder::MakeOsgVec3(startPoint), PathFinder::MakeOsgVec3(endPoint), offsetXY);
// update shortcut prohibit state
if (isClear)
{
if (mShortcutProhibited)
{
mShortcutProhibited = false;
mShortcutFailPos = ESM::Pathgrid::Point();
}
}
if (!isClear)
{
if (mShortcutFailPos.mX == 0 && mShortcutFailPos.mY == 0 && mShortcutFailPos.mZ == 0)
{
mShortcutProhibited = true;
mShortcutFailPos = startPoint;
}
}
return isClear;
}
bool MWMechanics::AiPackage::doesPathNeedRecalc(const ESM::Pathgrid::Point& newDest, const MWWorld::CellStore* currentCell)
{
return mPathFinder.getPath().empty() || (distance(mPathFinder.getPath().back(), newDest) > 10) || mPathFinder.getPathCell() != currentCell;
}
bool MWMechanics::AiPackage::isTargetMagicallyHidden(const MWWorld::Ptr& target)
{
const MagicEffects& magicEffects(target.getClass().getCreatureStats(target).getMagicEffects());
return (magicEffects.get(ESM::MagicEffect::Invisibility).getMagnitude() > 0)
|| (magicEffects.get(ESM::MagicEffect::Chameleon).getMagnitude() > 75);
}
bool MWMechanics::AiPackage::isNearInactiveCell(const ESM::Position& actorPos)
{
const ESM::Cell* playerCell(getPlayer().getCell()->getCell());
if (playerCell->isExterior())
{
// get actor's distance from origin of center cell
osg::Vec3f actorOffset(actorPos.asVec3());
CoordinateConverter(playerCell).toLocal(actorOffset);
// currently assumes 3 x 3 grid for exterior cells, with player at center cell.
// ToDo: (Maybe) use "exterior cell load distance" setting to get count of actual active cells
// While AI Process distance is 7168, AI shuts down actors before they reach edges of 3 x 3 grid.
const float distanceFromEdge = 200.0;
float minThreshold = (-1.0f * ESM::Land::REAL_SIZE) + distanceFromEdge;
float maxThreshold = (2.0f * ESM::Land::REAL_SIZE) - distanceFromEdge;
return (actorOffset[0] < minThreshold) || (maxThreshold < actorOffset[0])
|| (actorOffset[1] < minThreshold) || (maxThreshold < actorOffset[1]);
}
else
{
return false;
}
}
bool MWMechanics::AiPackage::isReachableRotatingOnTheRun(const MWWorld::Ptr& actor, const ESM::Pathgrid::Point& dest)
{
// get actor's shortest radius for moving in circle
float speed = actor.getClass().getSpeed(actor);
speed += speed * 0.1f; // 10% real speed inaccuracy
float radius = speed / MAX_VEL_ANGULAR_RADIANS;
// get radius direction to the center
const float* rot = actor.getRefData().getPosition().rot;
osg::Quat quatRot(rot[0], -osg::X_AXIS, rot[1], -osg::Y_AXIS, rot[2], -osg::Z_AXIS);
osg::Vec3f dir = quatRot * osg::Y_AXIS; // actor's orientation direction is a tangent to circle
osg::Vec3f radiusDir = dir ^ osg::Z_AXIS; // radius is perpendicular to a tangent
radiusDir.normalize();
radiusDir *= radius;
// pick up the nearest center candidate
osg::Vec3f dest_ = PathFinder::MakeOsgVec3(dest);
osg::Vec3f pos = actor.getRefData().getPosition().asVec3();
osg::Vec3f center1 = pos - radiusDir;
osg::Vec3f center2 = pos + radiusDir;
osg::Vec3f center = (center1 - dest_).length2() < (center2 - dest_).length2() ? center1 : center2;
float distToDest = (center - dest_).length();
// if pathpoint is reachable for the actor rotating on the run:
// no points of actor's circle should be farther from the center than destination point
return (radius <= distToDest);
}