CWE-ou-minkata/Sources/Plasma/PubUtilLib/plAvatar/plMatrixChannel.h

/*==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
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

This program 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 this program.  If not, see <http://www.gnu.org/licenses/>.

You can contact Cyan Worlds, Inc. by email legal@cyan.com
 or by snail mail at:
      Cyan Worlds, Inc.
      14617 N Newport Hwy
      Mead, WA   99021

*==LICENSE==*/
#ifndef PLMATRIXCHANNEL_INC
#define PLMATRIXCHANNEL_INC

// local
#include "plScalarChannel.h"

// global
#include "hsTypes.h"        // you need types to include Matrix
#include "hsMatrix44.h"
#include "plTransform/hsAffineParts.h"

// local prototypes
class plQuatChannel;
class plPointChannel;

// external prototypes
class plController;
class hsAffineParts;
class plAnimTimeConvert;
class plMatrixChannelApplicator;
class plControllerCacheInfo;

//////////////////
// PLMATRIXCHANNEL
//////////////////
// an animation channel that outputs matrices
class plMatrixChannel : public plAGChannel
{
protected:
    hsMatrix44 fResult;
    hsAffineParts fAP;

public:
    plMatrixChannel();
    virtual ~plMatrixChannel();

    // AG PROTOCOL
    virtual const hsMatrix44 & Value(double time, bool peek = false);
    virtual void Value(hsMatrix44 &matrix, double time, bool peek = false);
    virtual const hsAffineParts & AffineValue(double time, bool peek = false);

    // combine it (allocates combine object)
    virtual plAGChannel * MakeCombine(plAGChannel * channelB);

    // blend it (allocates blend object)
    virtual plAGChannel * MakeBlend(plAGChannel * channelB, plScalarChannel * channelBias, int blendPriority);
    
    // const eval at time zero
    virtual plAGChannel * MakeZeroState();
    // make a timeScale instance
    virtual plAGChannel * MakeTimeScale(plScalarChannel *timeSource);

    virtual plAGPinType GetPinType() { return kAGPinTransform; };

    virtual void Dump(int indent, bool optimized, double time);

    // PLASMA PROTOCOL
    CLASSNAME_REGISTER( plMatrixChannel );
    GETINTERFACE_ANY( plMatrixChannel, plAGChannel );
};

///////////////////
// PLMATRIXCONSTANT
///////////////////
// A matrix source that just keeps handing out the same value
class plMatrixConstant : public plMatrixChannel
{
public:
    plMatrixConstant();
    plMatrixConstant(const hsMatrix44 &value);
    virtual ~plMatrixConstant();

    void Set(const hsMatrix44 &value);
    
    // PLASMA PROTOCOL
    CLASSNAME_REGISTER( plMatrixConstant );
    GETINTERFACE_ANY( plMatrixConstant, plMatrixChannel );

    virtual void Write(hsStream *stream, hsResMgr *mgr);
    virtual void Read(hsStream *s, hsResMgr *mgr);
};

////////////////////
// PLMATRIXTIMESCALE
////////////////////
// Adapts the time scale before passing it to the next channel in line.
// Use to instance animations while allowing each instance to run at different speeds.
class plMatrixTimeScale : public plMatrixChannel
{
protected:
    plScalarChannel *fTimeSource;
    plMatrixChannel *fChannelIn;

public:
    plMatrixTimeScale();
    plMatrixTimeScale(plMatrixChannel *channel, plScalarChannel *timeSource);
    virtual ~plMatrixTimeScale();

    virtual hsBool IsStoppedAt(double time);
    virtual const hsMatrix44 & Value(double time, bool peek = false);
    virtual const hsAffineParts & AffineValue(double time, bool peek = false);

    virtual plAGChannel * Detach(plAGChannel * channel);

    virtual void Dump(int indent, bool optimized, double time);

    // PLASMA PROTOCOL
    CLASSNAME_REGISTER( plMatrixTimeScale );
    GETINTERFACE_ANY( plMatrixTimeScale, plMatrixChannel );
};

////////////////
// PLMATRIXBLEND
////////////////
// blends two matrices into one with weighting
class plMatrixBlend : public plMatrixChannel
{
protected:
    plMatrixChannel * fChannelA;
    plMatrixChannel * fOptimizedA;
    plMatrixChannel * fChannelB;
    plMatrixChannel * fOptimizedB;
    plScalarChannel * fChannelBias;
    int fPriority;

public:
    // xTORs
    plMatrixBlend();
    plMatrixBlend(plMatrixChannel * channelA, plMatrixChannel * channelB, plScalarChannel * channelBias, int priority);
    virtual ~plMatrixBlend();

    virtual plAGChannel * MakeBlend(plAGChannel *newChannel, plScalarChannel *channelBias, int blendPriority);

    // you cannot blend on top of a channel that has higher priority than you do.
    virtual UInt16 GetPriority();

    // SPECIFICS
    const plMatrixChannel * GetChannelA() const { return fChannelA; }
    void SetChannelA(plMatrixChannel * channel) { fChannelA = channel; }

    const plMatrixChannel * GetChannelB() const { return fChannelB; }
    void SetChannelB(plMatrixChannel * channel) { fChannelB = channel; }

    const plScalarChannel * GetChannelBias() const { return fChannelBias; }
    void SetChannelBias(plScalarChannel * channel) { fChannelBias = channel; }

    //virtual void SetBlend(float blend) { fBlend = blend; };
    //virtual float GetBlend() { return fBlend; };

    virtual hsBool IsStoppedAt(double time);

    // AG PROTOCOL
    virtual const hsMatrix44 & Value(double time, bool peek = false);
    virtual const hsAffineParts & AffineValue(double time, bool peek = false);

    // remove the specified channel from our graph
    virtual plAGChannel * Detach(plAGChannel * channel);
    virtual void Dump(int indent, bool optimized, double time);

    plAGChannel* Optimize(double time);
    
    // PLASMA PROTOCOL
    CLASSNAME_REGISTER( plMatrixBlend );
    GETINTERFACE_ANY( plMatrixBlend, plMatrixChannel );
};

/////////////////////
// PLMATRIXCONTROLLER
/////////////////////
// converts a plController-style animation into a plMatrixChannel
class plMatrixControllerChannel : public plMatrixChannel
{
protected:
    plController    *fController;

public:
    // xTORs
    plMatrixControllerChannel();
    plMatrixControllerChannel(plController *controller, hsAffineParts *parts);
    virtual ~plMatrixControllerChannel();

    // AG PROTOCOL
    virtual const hsAffineParts & AffineValue(double time, bool peek = false);
    virtual const hsAffineParts & AffineValue(double time, bool peek, plControllerCacheInfo *cache);    
    virtual const hsMatrix44 & Value(double time, bool peek = false);
    virtual const hsMatrix44 & Value(double time, bool peek, plControllerCacheInfo *cache);
    
    virtual plAGChannel * MakeCacheChannel(plAnimTimeConvert *atc);

    virtual void Dump(int indent, bool optimized, double time);

    // PLASMA PROTOCOL
    // rtti
    CLASSNAME_REGISTER( plMatrixControllerChannel );
    GETINTERFACE_ANY( plMatrixControllerChannel, plMatrixChannel );

    // persistence
    virtual void Write(hsStream *stream, hsResMgr *mgr);
    virtual void Read(hsStream *s, hsResMgr *mgr);
};

/////////////////////////////////
// PLMATRIXCONTROLLERCACHECHANNEL
/////////////////////////////////
// Same as plMatrixController, but with caching info
class plMatrixControllerCacheChannel : public plMatrixChannel
{
protected:
    plControllerCacheInfo *fCache;
    plMatrixControllerChannel *fControllerChannel;
    
public:
    plMatrixControllerCacheChannel();
    plMatrixControllerCacheChannel(plMatrixControllerChannel *channel, plControllerCacheInfo *cache);
    virtual ~plMatrixControllerCacheChannel();
    
    virtual const hsMatrix44 & Value(double time, bool peek = false);
    virtual const hsAffineParts & AffineValue(double time, bool peek = false);
    
    virtual plAGChannel * Detach(plAGChannel * channel);
    
    // PLASMA PROTOCOL
    CLASSNAME_REGISTER( plMatrixControllerCacheChannel );
    GETINTERFACE_ANY( plMatrixControllerCacheChannel, plMatrixChannel );

    // Created at runtime only, so no Read/Write
};

/////////////////////
// PLQUATPOINTCOMBINE
/////////////////////
// combines a quaternion and a point into a matrix
class plQuatPointCombine : public plMatrixChannel
{
protected:
    plQuatChannel *fQuatChannel;
    plPointChannel *fPointChannel;

public:
    // xTORs
    plQuatPointCombine();
    plQuatPointCombine(plQuatChannel *quatChannel, plPointChannel *pointChannel);
    virtual ~plQuatPointCombine();

    // SPECIFICS
    const plQuatChannel * GetQuatChannel() const { return fQuatChannel; }
    void SetQuatChannel(plQuatChannel * channel) { fQuatChannel = channel; }

    plPointChannel * GetPointChannel() const { return fPointChannel; }
    void SetPointChannel(plPointChannel * channel) { fPointChannel = channel; }

    // AG PROTOCOL
    virtual const hsMatrix44 & Value(double time);
    virtual const hsAffineParts & AffineValue(double time);

    // remove the specified channel from our graph
    virtual plAGChannel * Detach(plAGChannel * channel);

    // PLASMA PROTOCOL
    CLASSNAME_REGISTER( plQuatPointCombine );
    GETINTERFACE_ANY( plQuatPointCombine, plMatrixChannel );
};


/////////////////////
//
// Applicator classes

class plMatrixChannelApplicator : public plAGApplicator
{
protected:
    virtual void IApply(const plAGModifier *mod, double time);

public:
    CLASSNAME_REGISTER( plMatrixChannelApplicator );
    GETINTERFACE_ANY( plMatrixChannelApplicator, plAGApplicator );

    virtual hsBool CanCombine(plAGApplicator *app) { return false; }
    virtual plAGPinType GetPinType() { return kAGPinTransform; }
};

// PLMATRIXDELAYEDCORRECTIONAPPLICATOR
// Used for blending in sudden location changes due to synch messages.
// This app tacks on a correction to the l2p transform
// (so l2p is set as animL2P*correction)
// interpolating this to the identity matrix over time.
class plMatrixDelayedCorrectionApplicator : public plMatrixChannelApplicator
{
protected:
    hsAffineParts fCorAP;   // AP of the correction.
    double fDelayStart;     // Start time of the delayed correction
    
    // apply our animation * our correction to the node
    virtual void IApply(const plAGModifier *mod, double time);

public:
    plMatrixDelayedCorrectionApplicator() : fDelayStart(-1000.f), fIgnoreNextCorrection(true) { fCorAP.Reset(); }
    
    CLASSNAME_REGISTER( plMatrixDelayedCorrectionApplicator );
    GETINTERFACE_ANY( plMatrixDelayedCorrectionApplicator, plMatrixChannelApplicator );

    void SetCorrection(hsMatrix44 &correction);
    virtual hsBool AutoDelete() { return false; } // should we remove it when its input channel is gone?

    // applicator arbitration...
    virtual plAGPinType GetPinType() { return kAGPinTransform; }
    virtual hsBool CanBlend(plAGApplicator *app);

    hsBool fIgnoreNextCorrection;
    static const hsScalar fDelayLength; // static var for now.  
};

// PLMATRIXDIFFERENCEAPP
// Each frame, this guy takes the difference between his current value
// and his last value and applies that to the current world
// transform of the target.
// You could also call it the Temporal Matrix Difference Applicator,
// but that sucks to type.
class plMatrixDifferenceApp : public plMatrixChannelApplicator
{
public:
    /** Forget the previous cached transform and start again */
    void Reset(double time);

    /** Should this applicator be automatically removed when its channel goes away? */
    virtual hsBool AutoDelete() { return false; }

    // applicator arbitration
    virtual plAGPinType GetPinType() { return kAGPinTransform; }
    virtual hsBool CanBlend(plAGApplicator *app);

    CLASSNAME_REGISTER(plMatrixDifferenceApp);
    GETINTERFACE_ANY(plMatrixDifferenceApp, plMatrixChannelApplicator);

protected:
    virtual void IApply(const plAGModifier *mod, double time);
    hsMatrix44 fLastL2A;        // local to animation space
    hsMatrix44 fLastA2L;        // animation space to local
    bool fNew;                  // true if we haven't cached anything yet
};


#endif