/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
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GNU General Public License for more details.
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*==LICENSE==*/
#ifndef PLPHYSICALCONTROLLERCORE_H
#define PLPHYSICALCONTROLLERCORE_H
#include "hsGeometry3.h"
#include "hsMatrix44.h"
#include "hsTemplates.h"
#include "pnKeyedObject/plKey.h"
#include "plPhysical/plSimDefs.h"
#include "pnMessage/plMessage.h"
#include "hsQuat.h"
#define PHYSX_ONLY_TRIGGER_FROM_KINEMATIC 1
#define kSLOPELIMIT (cosf(hsScalarDegToRad(55.f)))
class plCoordinateInterface;
class plPhysical;
class plPXPhysical;
class plSwimRegionInterface;
//Replacement for for plPhysicalController stripped out some walk specific code
//plPhysicalControllerCore needs to have movement strategies registered to it these will then
//be called by the controller during the simulation steps. The Strategies need to at least have an
// Apply and Update definition. Everything else should be movement specific. I hope to come back and
//and refactor when I have time this in the future.
enum plControllerCollisionFlags
{
kSides=1,
kTop= (1<<1),
kBottom=(1<<2),
};
class plMovementStrategySimulationInterface
{
public:
virtual void Apply(hsScalar delSecs)=0;
virtual void Update(hsScalar delSecs)=0;
//most strategies don't require this. Only the ones that require behavior like a physical or need
//something after the sim step. this used to be taken care of by Update, but this was moved to take care of
//some of the frame lag
virtual void PostStep(hsScalar delSecs){};
virtual void IAddContactNormals(hsVector3& vec){fContactNormals.Append(vec);}
virtual void AddOnTopOfObject(plPhysical* phys){ fOnTopOf.Append(phys);}
virtual void LeaveAge()
{
fContactNormals.SetCount(0);
fOnTopOf.SetCount(0);
}
protected:
hsTArray fContactNormals;
hsTArray fOnTopOf;
};
class plControllerSweepRecord
{
public:
plPhysical *ObjHit;
hsPoint3 locHit;//World space
hsScalar TimeHit;//Normalized between 0 and 1
hsVector3 Norm;
};
bool operator<(const plControllerSweepRecord left, const plControllerSweepRecord right);
class plPhysicalControllerCore
{
public:
virtual ~plPhysicalControllerCore();
virtual void Move(hsVector3 displacement, unsigned int collideWith, unsigned int &collisionResults)=0;
virtual void SetMovementSimulationInterface(plMovementStrategySimulationInterface* strat){fMovementInterface=strat;}
virtual void Apply(hsScalar delSecs);
virtual void Update(hsScalar delSecs);
virtual void PostStep(hsScalar delSecs);
// A disabled avatar doesn't move or accumulate air time if he's off the ground.
virtual void Enable(bool enable) = 0;
virtual bool IsEnabled() {return fEnabled;}
virtual plKey GetSubworld() {return fWorldKey;}
virtual void SetSubworld(plKey world) = 0;
virtual const plCoordinateInterface* GetSubworldCI() const = 0;
// For the avatar SDL only
virtual void GetState(hsPoint3& pos, float& zRot) = 0;
virtual void SetState(const hsPoint3& pos, float zRot) = 0;
// kinematic stuff .... should be just for when playing a behavior...
virtual void Kinematic(bool state) = 0;
virtual bool IsKinematic() = 0;
virtual void GetKinematicPosition(hsPoint3& pos) = 0;
virtual const hsMatrix44& GetPrevSubworldW2L() = 0;
//when seeking no longer want to interact with exclusion regions
virtual void SetSeek(bool seek){fSeeking=seek;}
virtual bool IsSeeking(){return fSeeking;}
static plPhysicalControllerCore* Create(plKey ownerSO, hsScalar height, hsScalar radius);
virtual plMovementStrategySimulationInterface* GetMovementInterface(){return fMovementInterface;}
plPhysicalControllerCore(plKey ownerSceneObject, hsScalar height, hsScalar radius);
virtual plKey GetOwner(){return fOwner;};
// Set the LOS DB this avatar will be in (only one)
virtual void SetLOSDB(plSimDefs::plLOSDB losDB) { fLOSDB = losDB; } ;
virtual plSimDefs::plLOSDB GetLOSDB() {return fLOSDB ; }
virtual const hsMatrix44& GetLastGlobalLoc()=0;
virtual void SetKinematicLoc(const hsMatrix44& l2w)=0;
virtual void SetGlobalLoc(const hsMatrix44& l2w)=0;
virtual bool IsEnabledChanged(){return fEnableChanged;}
virtual void HandleEnableChanged()=0;
virtual bool IsKinematicChanged(){return fKinematicChanged;}
virtual void GetPositionSim(hsPoint3& pos)=0;
virtual void HandleKinematicChanged()=0;
virtual bool IsKinematicEnableNextUpdate(){return fKinematicEnableNextUpdate;}
virtual void HandleKinematicEnableNextUpdate()=0;
virtual void MoveKinematicToController(hsPoint3& pos)=0;
virtual void UpdateControllerAndPhysicalRep()=0;
virtual void CheckAndHandleAnyStateChanges();
virtual void UpdateSubstepNonPhysical();
virtual const hsPoint3& GetLocalPosition()=0;
virtual void MoveActorToSim();
virtual void OverrideAchievedVelocity(hsVector3 newAchievedVel)
{//because of things like superjumps this is needed I'd rather not, but can't help it
fAchievedLinearVelocity=newAchievedVel;
}
//any clean up for the controller should go here
virtual void LeaveAge()=0;
hsVector3 DisplacementLastStep(){return fDisplacementThisStep;}
hsVector3 MeanVelocityForLastStep()
{
hsVector3 vel=fDisplacementThisStep;
return vel/fSimLength;
}
void SendCorrectionMessages();
void IncrementAngle(hsScalar deltaAngle);
void UpdateWorldRelativePos();
virtual void SetLinearVelocity(const hsVector3& linearVel){fLinearVelocity=linearVel;}
//should actually be a 3 vector but everywhere else it is assumed to be just around Z
virtual void SetAngularVelocity(const hsScalar angvel){ fAngularVelocity=angvel;}
virtual void SetVelocities(const hsVector3& linearVel, hsScalar angVel)
{
fLinearVelocity=linearVel;
fAngularVelocity=angVel;
}
virtual const hsVector3& GetLinearVelocity() ;
virtual hsScalar GetAngularVelocity(){return fAngularVelocity;}
virtual const hsVector3& GetAchievedLinearVelocity()const {return fAchievedLinearVelocity;}
plPhysical* GetPushingPhysical();
bool GetFacingPushingPhysical();
virtual void SetPushingPhysical(plPhysical* pl){fPushingPhysical=pl;}
virtual void SetFacingPushingPhysical(bool ans){fFacingPushingPhysical=ans;}
//To be Used during runtime conversions, say to switch a tall controller to a ball for swimming
virtual void SetControllerDimensions(hsScalar radius, hsScalar height)=0;
virtual hsScalar GetControllerWidth(){return fRadius;}
virtual hsScalar GetControllerHeight(){return fHeight;}
virtual void ResetAchievedLinearVelocity()
{
fAchievedLinearVelocity.Set(0.f,0.f,0.f);
}
virtual int SweepControllerPath(const hsPoint3& startPos,const hsPoint3& endPos, hsBool vsDynamics, hsBool vsStatics, UInt32& vsSimGroups, std::multiset< plControllerSweepRecord >& WhatWasHitOut)=0;
//this should only be used to force a move it could place your head into a wall and that would be good
virtual hsScalar GetHeight() {return fHeight;}
virtual hsScalar GetRadius() {return fRadius;}
//Wether the avatar thing has mass and forces things down or not, and changes the way things move
//This is an attempt fix things like riding on an animated physical
virtual void BehaveLikeAnimatedPhysical(hsBool actLikeAnAnimatedPhys)=0;
virtual hsBool BehavingLikeAnAnimatedPhysical()=0;
protected:
plKey fOwner;
hsScalar fHeight;
hsScalar fRadius;
plKey fWorldKey;
plSimDefs::plLOSDB fLOSDB;
bool fSeeking;
bool fEnabled;
bool fEnableChanged;
bool fKinematic;
bool fKinematicEnableNextUpdate;
bool fKinematicChanged;
plMovementStrategySimulationInterface* fMovementInterface;
hsMatrix44 fLastGlobalLoc;
hsPoint3 fLocalPosition;
hsQuat fLocalRotation;
hsMatrix44 fPrevSubworldW2L;
hsVector3 fDisplacementThisStep;
hsScalar fSimLength;
//physical properties
hsVector3 fLinearVelocity;
hsScalar fAngularVelocity;
hsVector3 fAchievedLinearVelocity;
plPhysical* fPushingPhysical;
bool fFacingPushingPhysical;
bool fNeedsResize;
};
class plMovementStrategy: public plMovementStrategySimulationInterface
{
public:
virtual void SetControllerCore(plPhysicalControllerCore* core)
{
fCore=core;
fCore->SetMovementSimulationInterface(this);
}
virtual void RefreshConnectionToControllerCore()
{
fCore->SetMovementSimulationInterface(this);
//fCore->SetControllerDimensions(fPreferedControllerWidth,fPreferedControllerHeight);
fCore->BehaveLikeAnimatedPhysical(this->IRequireBehaviourLikeAnAnimatedPhysical());
}
plMovementStrategy(plPhysicalControllerCore* core);
//should actually be a 3 vector but everywhere else it is assumed to be just around Z
virtual void SetLinearAcceleration(const hsVector3& accel){fLinearAcceleration=accel;}
virtual const hsVector3& GetLinearAcceleration()const{return fLinearAcceleration;}
//should actually be a 3 vector but everywhere else it is assumed to be just around Z
virtual void ResetAchievedLinearVelocity()
{
hsVector3 AchievedLinearVelocity(0.f,0.f,0.f);
if(fCore)fCore->OverrideAchievedVelocity(AchievedLinearVelocity);
}
//proxy functions for Controller Core
virtual hsScalar GetAirTime() const { return fTimeInAir; }
virtual void ResetAirTime() { fTimeInAir = 0.f; }
protected:
virtual hsBool IRequireBehaviourLikeAnAnimatedPhysical()=0;
virtual void IApplyKinematic();
plPhysicalControllerCore* fCore;
hsVector3 fLinearAcceleration;
hsScalar fAngularAcceleration;
plKey fOwner;
static const hsScalar kAirTimeThreshold;
hsScalar fTimeInAir;
hsScalar fPreferedControllerWidth;
hsScalar fPreferedControllerHeight;
};
class plWalkingStrategy: public plMovementStrategy
{
public:
plWalkingStrategy(plPhysicalControllerCore* core):plMovementStrategy(core)
{
fGroundHit=false;
fFalseGround=false;
fHitHead=false;
fCore->SetMovementSimulationInterface(this);
fPreferedControllerWidth=core->GetControllerWidth();
fPreferedControllerHeight=core->GetControllerHeight();
fOnTopOfAnimatedPhysLastFrame=false;
}
virtual ~plWalkingStrategy(){};
virtual void Apply(hsScalar delSecs);
virtual void Update(hsScalar delSecs);
bool IsOnGround() const { return fTimeInAir < kAirTimeThreshold || fFalseGround; }
bool IsOnFalseGround() const { return fFalseGround && !fGroundHit; }
void GroundHit() { fGroundHit = true; }
virtual void IAddContactNormals(hsVector3& vec);
virtual void StartJump(){};
protected:
void ICheckForFalseGround();
bool fGroundHit;
bool fFalseGround;
bool fHitHead;
bool fOnTopOfAnimatedPhysLastFrame;
hsTArray fPrevSlidingNormals;
virtual hsBool IRequireBehaviourLikeAnAnimatedPhysical(){return true;}
};
class plSwimStrategy: public plMovementStrategy
{
public:
plSwimStrategy(plPhysicalControllerCore *core);
virtual ~plSwimStrategy(){};
void SetSurface(plSwimRegionInterface *region, hsScalar surfaceHeight);
virtual void Apply(hsScalar delSecs);
virtual void Update(hsScalar delSecs);
hsScalar GetBuoyancy() { return fBuoyancy; }
hsBool IsOnGround() { return fOnGround; }
hsBool HadContacts() { return fHadContacts; }
virtual void IAddContactNormals(hsVector3& vec);
protected:
virtual hsBool IRequireBehaviourLikeAnAnimatedPhysical(){return true;}
private:
void IAdjustBuoyancy();
hsScalar fBuoyancy;
hsBool fOnGround;
hsBool fHadContacts;
hsScalar fSurfaceHeight;
plSwimRegionInterface *fCurrentRegion;
};
class plRidingAnimatedPhysicalStrategy : public plWalkingStrategy
{
public:
plRidingAnimatedPhysicalStrategy(plPhysicalControllerCore *core ) :
fNeedVelocityOverride(false),fStartJump(false),plWalkingStrategy(core){};
virtual ~plRidingAnimatedPhysicalStrategy(){};
virtual void Apply(hsScalar delSecs);
virtual void Update(hsScalar delSecs);
virtual void PostStep(hsScalar delSecs);
bool IsOnGround() const { return fTimeInAir < kAirTimeThreshold || fFalseGround; }
bool IsOnFalseGround() const { return fFalseGround && !fGroundHit; }
void GroundHit() { fGroundHit = true; }
virtual void StartJump(){fStartJump = true;}
protected:
virtual hsBool IRequireBehaviourLikeAnAnimatedPhysical(){return false;}
bool ICheckMove(const hsPoint3& startPos, const hsPoint3& desiredPos);
hsBool fNeedVelocityOverride;
hsVector3 fOverrideVelocity;
bool fStartJump;
};
#endif// PLPHYSICALCONTROLLERCORE_H