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openmw-tes3mp/apps/openmw/mwphysics/actor.cpp
fredzio 9d17cece3a Set mCanWaterWalk and mOnGround when adding Actor to the scene. 
mCanWaterWalk was set to false and updated during next frame's simulation
mOnGround is set to true but then was updated as part of the scene
loading logic.
2021-07-24 15:04:17 +02:00

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#include "actor.hpp"
#include <BulletCollision/CollisionShapes/btBoxShape.h>
#include <BulletCollision/CollisionDispatch/btCollisionWorld.h>
#include <components/sceneutil/positionattitudetransform.hpp>
#include <components/resource/bulletshape.hpp>
#include <components/debug/debuglog.hpp>
#include <components/misc/convert.hpp>
#include "../mwworld/class.hpp"
#include "collisiontype.hpp"
#include "mtphysics.hpp"
#include <cmath>
namespace MWPhysics
{
Actor::Actor(const MWWorld::Ptr& ptr, const Resource::BulletShape* shape, PhysicsTaskScheduler* scheduler, bool canWaterWalk)
: mStandingOnPtr(nullptr), mCanWaterWalk(canWaterWalk), mWalkingOnWater(false)
, mCollisionObject(nullptr), mMeshTranslation(shape->mCollisionBox.center), mHalfExtents(shape->mCollisionBox.extents)
, mVelocity(0,0,0), mStuckFrames(0), mLastStuckPosition{0, 0, 0}
, mForce(0.f, 0.f, 0.f), mOnGround(true), mOnSlope(false)
, mInternalCollisionMode(true)
, mExternalCollisionMode(true)
, mTaskScheduler(scheduler)
{
mPtr = ptr;
// We can not create actor without collisions - he will fall through the ground.
// In this case we should autogenerate collision box based on mesh shape
// (NPCs have bodyparts and use a different approach)
if (!ptr.getClass().isNpc() && mHalfExtents.length2() == 0.f)
{
if (shape->mCollisionShape)
{
btTransform transform;
transform.setIdentity();
btVector3 min;
btVector3 max;
shape->mCollisionShape->getAabb(transform, min, max);
mHalfExtents.x() = (max[0] - min[0])/2.f;
mHalfExtents.y() = (max[1] - min[1])/2.f;
mHalfExtents.z() = (max[2] - min[2])/2.f;
mMeshTranslation = osg::Vec3f(0.f, 0.f, mHalfExtents.z());
}
if (mHalfExtents.length2() == 0.f)
Log(Debug::Error) << "Error: Failed to calculate bounding box for actor \"" << ptr.getCellRef().getRefId() << "\".";
}
mShape.reset(new btBoxShape(Misc::Convert::toBullet(mHalfExtents)));
mRotationallyInvariant = (mMeshTranslation.x() == 0.0 && mMeshTranslation.y() == 0.0) && std::fabs(mHalfExtents.x() - mHalfExtents.y()) < 2.2;
mConvexShape = static_cast<btConvexShape*>(mShape.get());
mCollisionObject = std::make_unique<btCollisionObject>();
mCollisionObject->setCollisionFlags(btCollisionObject::CF_KINEMATIC_OBJECT);
mCollisionObject->setActivationState(DISABLE_DEACTIVATION);
mCollisionObject->setCollisionShape(mShape.get());
mCollisionObject->setUserPointer(this);
updateScale();
if(!mRotationallyInvariant)
updateRotation();
updatePosition();
addCollisionMask(getCollisionMask());
updateCollisionObjectPosition();
}
Actor::~Actor()
{
mTaskScheduler->removeCollisionObject(mCollisionObject.get());
}
void Actor::enableCollisionMode(bool collision)
{
mInternalCollisionMode.store(collision, std::memory_order_release);
}
void Actor::enableCollisionBody(bool collision)
{
if (mExternalCollisionMode != collision)
{
mExternalCollisionMode = collision;
updateCollisionMask();
}
}
void Actor::addCollisionMask(int collisionMask)
{
mTaskScheduler->addCollisionObject(mCollisionObject.get(), CollisionType_Actor, collisionMask);
}
void Actor::updateCollisionMask()
{
mTaskScheduler->setCollisionFilterMask(mCollisionObject.get(), getCollisionMask());
}
int Actor::getCollisionMask() const
{
int collisionMask = CollisionType_World | CollisionType_HeightMap;
if (mExternalCollisionMode)
collisionMask |= CollisionType_Actor | CollisionType_Projectile | CollisionType_Door;
if (mCanWaterWalk)
collisionMask |= CollisionType_Water;
return collisionMask;
}
void Actor::updatePosition()
{
std::scoped_lock lock(mPositionMutex);
const auto worldPosition = mPtr.getRefData().getPosition().asVec3();
mPreviousPosition = worldPosition;
mPosition = worldPosition;
mSimulationPosition = worldPosition;
mPositionOffset = osg::Vec3f();
mStandingOnPtr = nullptr;
mSkipCollisions = true;
mSkipSimulation = true;
}
void Actor::setSimulationPosition(const osg::Vec3f& position)
{
if (!std::exchange(mSkipSimulation, false))
mSimulationPosition = position;
}
osg::Vec3f Actor::getSimulationPosition() const
{
return mSimulationPosition;
}
osg::Vec3f Actor::getScaledMeshTranslation() const
{
return mRotation * osg::componentMultiply(mMeshTranslation, mScale);
}
void Actor::updateCollisionObjectPosition()
{
std::scoped_lock lock(mPositionMutex);
mShape->setLocalScaling(Misc::Convert::toBullet(mScale));
osg::Vec3f newPosition = getScaledMeshTranslation() + mPosition;
auto& trans = mCollisionObject->getWorldTransform();
trans.setOrigin(Misc::Convert::toBullet(newPosition));
trans.setRotation(Misc::Convert::toBullet(mRotation));
mCollisionObject->setWorldTransform(trans);
mWorldPositionChanged = false;
}
osg::Vec3f Actor::getCollisionObjectPosition() const
{
std::scoped_lock lock(mPositionMutex);
return getScaledMeshTranslation() + mPosition;
}
bool Actor::setPosition(const osg::Vec3f& position)
{
std::scoped_lock lock(mPositionMutex);
applyOffsetChange();
bool hasChanged = mPosition != position || mWorldPositionChanged;
mPreviousPosition = mPosition;
mPosition = position;
return hasChanged;
}
void Actor::adjustPosition(const osg::Vec3f& offset, bool ignoreCollisions)
{
std::scoped_lock lock(mPositionMutex);
mPositionOffset += offset;
mSkipCollisions = mSkipCollisions || ignoreCollisions;
}
void Actor::applyOffsetChange()
{
if (mPositionOffset.length() == 0)
return;
mPosition += mPositionOffset;
mPreviousPosition += mPositionOffset;
mSimulationPosition += mPositionOffset;
mPositionOffset = osg::Vec3f();
mWorldPositionChanged = true;
}
osg::Vec3f Actor::getPosition() const
{
return mPosition;
}
osg::Vec3f Actor::getPreviousPosition() const
{
return mPreviousPosition;
}
void Actor::updateRotation ()
{
std::scoped_lock lock(mPositionMutex);
mRotation = mPtr.getRefData().getBaseNode()->getAttitude();
}
bool Actor::isRotationallyInvariant() const
{
return mRotationallyInvariant;
}
void Actor::updateScale()
{
std::scoped_lock lock(mPositionMutex);
float scale = mPtr.getCellRef().getScale();
osg::Vec3f scaleVec(scale,scale,scale);
mPtr.getClass().adjustScale(mPtr, scaleVec, false);
mScale = scaleVec;
scaleVec = osg::Vec3f(scale,scale,scale);
mPtr.getClass().adjustScale(mPtr, scaleVec, true);
mRenderingScale = scaleVec;
}
osg::Vec3f Actor::getHalfExtents() const
{
std::scoped_lock lock(mPositionMutex);
return osg::componentMultiply(mHalfExtents, mScale);
}
osg::Vec3f Actor::getOriginalHalfExtents() const
{
return mHalfExtents;
}
osg::Vec3f Actor::getRenderingHalfExtents() const
{
std::scoped_lock lock(mPositionMutex);
return osg::componentMultiply(mHalfExtents, mRenderingScale);
}
void Actor::setInertialForce(const osg::Vec3f &force)
{
mForce = force;
}
void Actor::setOnGround(bool grounded)
{
mOnGround.store(grounded, std::memory_order_release);
}
void Actor::setOnSlope(bool slope)
{
mOnSlope.store(slope, std::memory_order_release);
}
bool Actor::isWalkingOnWater() const
{
return mWalkingOnWater.load(std::memory_order_acquire);
}
void Actor::setWalkingOnWater(bool walkingOnWater)
{
mWalkingOnWater.store(walkingOnWater, std::memory_order_release);
}
void Actor::setCanWaterWalk(bool waterWalk)
{
if (waterWalk != mCanWaterWalk)
{
mCanWaterWalk = waterWalk;
updateCollisionMask();
}
}
MWWorld::Ptr Actor::getStandingOnPtr() const
{
std::scoped_lock lock(mPositionMutex);
return mStandingOnPtr;
}
void Actor::setStandingOnPtr(const MWWorld::Ptr& ptr)
{
std::scoped_lock lock(mPositionMutex);
mStandingOnPtr = ptr;
}
bool Actor::skipCollisions()
{
return std::exchange(mSkipCollisions, false);
}
void Actor::setVelocity(osg::Vec3f velocity)
{
mVelocity = velocity;
}
osg::Vec3f Actor::velocity()
{
return std::exchange(mVelocity, osg::Vec3f());
}
}
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