CWE-ou-minkata/Sources/Plasma/PubUtilLib/plDrawable/plDrawableSpans.h

/*==LICENSE==*

CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011  Cyan Worlds, Inc.

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it under the terms of the GNU General Public License as published by
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You can contact Cyan Worlds, Inc. by email legal@cyan.com
 or by snail mail at:
      Cyan Worlds, Inc.
      14617 N Newport Hwy
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*==LICENSE==*/
//////////////////////////////////////////////////////////////////////////////
//                                                                          //
//  plDrawableSpans Header                                                  //
//                                                                          //
//  The base plDrawable derivative for ice (triangle list)                  //
//  drawables. Contains the basic structure for spans and the functions     //
//  to deal with them.                                                      //
//                                                                          //
//// Version History /////////////////////////////////////////////////////////
//                                                                          //
//  4.3.2001 mcn - Created.                                                 //
//  5.3.2001 mcn - Completely revamped. Now plDrawableSpans *IS* the group  //
//                 of spans, and each span is either an icicle or patch.    //
//                 This eliminates the need entirely for separate drawables,//
//                 at the cost of having to do a bit of extra work to       //
//                 maintain different types of spans in the same drawable.  //
//  4.20.2006 bob - Patches are long gone. Only icicle (or particle) spans  //
//                  now.
//                                                                          //
//////////////////////////////////////////////////////////////////////////////

#ifndef _plDrawableSpans_h
#define _plDrawableSpans_h


#include "hsBitVector.h"
#include "hsTemplates.h"
#include "plDrawable.h"
#include "hsBounds.h"
#include "hsMatrix44.h"
#include "plSpanTypes.h"

class plPipeline;
class plMessage;
class hsGMaterial;
class plGeometrySpan;
class plSpaceTree;
class plFogEnvironment;
class plLightInfo;
class plGBufferGroup;
class plParticleCore;
class plAccessSpan;
class plAccessVtxSpan;
class plAccessTriSpan;
class plVisMgr;
class plVisRegion;
class plClusterGroup;

//// Class Definition ////////////////////////////////////////////////////////

class plDISpanIndex
{
public:
    enum {
        kNone                   = 0x0,
        kMatrixOnly             = 0x1,
        kDontTransformSpans     = 0x2       // Only used for particle systems right now
    };
    UInt8               fFlags;
    hsTArray<UInt32>    fIndices;

    hsBool      IsMatrixOnly() const { return 0 != (fFlags & kMatrixOnly); }
    hsBool      DontTransform() const { return 0 != ( fFlags & kDontTransformSpans ); }
    void        Append(UInt32 i) { fIndices.Append(i); }
    void        Reset() { fFlags = kNone; fIndices.Reset(); }
    void        SetCountAndZero(int c) { fIndices.SetCountAndZero(c); }
    UInt32      GetCount() const { return fIndices.GetCount(); }
    UInt32&     operator[](int i) const { return fIndices[i]; }
};

struct hsColorRGBA;

class plDrawableSpans : public plDrawable
{
    protected:

        static const UInt32     kSpanTypeMask;
        static const UInt32     kSpanIDMask;
        static const UInt32     kSpanTypeIcicle;
        static const UInt32     kSpanTypeParticleSpan;

        UInt32              fType;

        hsBool              fReadyToRender;

        hsBounds3Ext        fLocalBounds;
        hsBounds3Ext        fWorldBounds;
        hsBounds3Ext        fMaxWorldBounds;

        hsMatrix44          fLocalToWorld;
        hsMatrix44          fWorldToLocal;

        hsTArray<hsMatrix44>    fLocalToWorlds;
        hsTArray<hsMatrix44>    fWorldToLocals;

        hsTArray<hsMatrix44>    fLocalToBones;
        hsTArray<hsMatrix44>    fBoneToLocals;

        hsTArray<hsGMaterial *> fMaterials;

        mutable plSpaceTree*    fSpaceTree;

        hsBitVector             fVisSet; // the or of all our spans visset's. Doesn't have to be exact, just conservative.
        hsBitVector             fVisNot; // same, but for visregions that exclude us.
        mutable hsBitVector     fLastVisSet; // Last vis set we were evaluated against.
        mutable hsBitVector     fLastVisNot; // Last exclusion set we were evaluated agains.
        hsBitVector             fVisCache; // the enabled section of the space tree

        hsTArray<plIcicle>          fIcicles;
        hsTArray<plParticleSpan>    fParticleSpans;

        hsTArray<plSpan *>          fSpans;             // Pointers into the above two arrays
        hsTArray<UInt32>            fSpanSourceIndices; // For volatile drawables only
        hsTArray<plGBufferGroup *>  fGroups;
        hsTArray<plDISpanIndex*>    fDIIndices;

        UInt32              fProps;
        UInt32              fCriteria;
        plRenderLevel       fRenderLevel;
        plLoadMask          fLoadMask;

        hsBool              fRegisteredForRecreate, fNeedCleanup;
        hsBool              fRegisteredForRender;

        hsBitVector         fParticleSpanVector;
        hsBitVector         fBlendingSpanVector;
        hsBitVector         fFakeBlendingSpanVector;

        plKey               fSceneNode;

        hsBool              fSettingMatIdxLock;

        UInt32              fSkinTime;

        /// Export-only members
        hsTArray<plGeometrySpan *>  fSourceSpans;
        hsBool                      fOptimized;

        virtual void    IQuickSpaceTree( void ) const;

        // Temp placeholder function. See code for comments.
        void    IUpdateMatrixPaletteBoundsHack( );

        void    ICleanupMatrices();
        void    IRemoveGarbage( void );
        void    IAdjustSortData( plGBufferTriangle *triList, UInt32 count, UInt32 threshhold, Int32 delta );

        // The following two functions return true if they create a new span, false if it's just an instance
        hsBool  IConvertGeoSpanToVertexSpan( plGeometrySpan *geoSpan, plVertexSpan *span, int lod, plVertexSpan *instancedParent );
        hsBool  IConvertGeoSpanToIcicle( plGeometrySpan *geoSpan, plIcicle *icicle, int lod, plIcicle *instancedParent = nil );

        void    IUpdateIcicleFromGeoSpan( plGeometrySpan *geoSpan, plIcicle *icicle );
        void    IUpdateVertexSpanFromGeoSpan( plGeometrySpan *geoSpan, plVertexSpan *span );

        UInt32  IXlateSpanProps( UInt32 props, hsBool xlateToSpan );

        UInt32  IAddAMaterial( hsGMaterial *material );
        UInt32  IRefMaterial( UInt32 index );
        void    ICheckToRemoveMaterial( UInt32 materialIdx );

        // Annoying to need this, but necessary until materials can test for properties on any of their layers (might add in the future)
        hsBool  ITestMatForSpecularity( hsGMaterial *mat );

        void    IAssignMatIdxToSpan( plSpan *span, hsGMaterial *mtl );

        // Create the sorting data for a given span and flag it as sortable
        void            ICheckSpanForSortable( UInt32 idx ) { if( !(fSpans[idx]->fProps & plSpan::kPropFacesSortable) )IMakeSpanSortable(idx); }
        void            IMakeSpanSortable( UInt32 index );

        /// Bit vector build thingies
        virtual void            IBuildVectors( void );

        hsBool                  IBoundsInvalid(const hsBounds3Ext& bnd) const;

        /// EXPORT-ONLY FUNCTIONS
        // Packs the span indices
        void    IPackSourceSpans( void );
        // Sort the spans
        void    ISortSourceSpans( void );
        // Compare two spans for sorting
        short   ICompareSpans( plGeometrySpan *span1, plGeometrySpan *span2 );
        // Find a buffer group of the given format (returns its index into fGroups)
        UInt8   IFindBufferGroup( UInt8 vtxFormat, UInt32 numVertsNeeded, int lod, hsBool vertVolatile, hsBool idxVolatile);
        // Write a span to a stream
        void    IWriteSpan( hsStream *s, plSpan *span );
        /// EXPORT-ONLY FUNCTIONS

        /// DYNAMIC FUNCTIONS
        plDISpanIndex   *IFindDIIndices( UInt32 &index );
        void            IRebuildSpanArray( void );
        plParticleSpan  *ICreateParticleIcicle( hsGMaterial *material, plParticleSet *set );

        virtual void    SetKey(plKey k);

    public:
        plDrawableSpans();
        virtual ~plDrawableSpans();

        CLASSNAME_REGISTER( plDrawableSpans );
        GETINTERFACE_ANY( plDrawableSpans, plDrawable );

        virtual void SetNativeTransform(UInt32 idx, const hsMatrix44& l2w, const hsMatrix44& w2l);
        virtual plDrawable& SetTransform( UInt32 index, const hsMatrix44& l2w, const hsMatrix44& w2l);
        virtual const hsMatrix44& GetLocalToWorld( UInt32 index = (UInt32)-1 ) const;
        virtual const hsMatrix44& GetWorldToLocal( UInt32 index = (UInt32)-1 ) const;

        virtual plDrawable& SetProperty( UInt32 index, int prop, hsBool on );
        virtual hsBool GetProperty( UInt32 index, int prop ) const;

        virtual plDrawable& SetProperty( int prop, hsBool on );
        virtual hsBool GetProperty( int prop ) const;

        virtual plDrawable& SetNativeProperty( int prop, hsBool on ) { if( on ) fProps |= prop; else fProps &= ~prop; return *this; }
        virtual hsBool GetNativeProperty( int prop ) const { return ( fProps & prop ) ? true : false; }

        virtual plDrawable& SetNativeProperty( UInt32 index, int prop, hsBool on );
        virtual hsBool GetNativeProperty( UInt32 index, int prop ) const;

        virtual plDrawable& SetSubType( UInt32 index, plSubDrawableType t, hsBool on );
        virtual UInt32 GetSubType( UInt32 index ) const; // returns or of all spans with this index (index==-1 is all spans).

        virtual UInt32  GetType( void ) const { return fType; }
        virtual void    SetType( UInt32 type ) { fType = type; }

        virtual void SetRenderLevel(const plRenderLevel& l);
        virtual const plRenderLevel& GetRenderLevel() const;

        const hsBounds3Ext& GetLocalBounds( UInt32 index = (UInt32)-1 ) const;
        const hsBounds3Ext& GetWorldBounds( UInt32 index = (UInt32)-1 ) const;
        const hsBounds3Ext& GetMaxWorldBounds( UInt32 index = (UInt32)-1 ) const;

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

        virtual plSpaceTree*    GetSpaceTree() const { if(!fSpaceTree)IQuickSpaceTree(); return fSpaceTree; }
        virtual void            SetSpaceTree(plSpaceTree* st) const;
        virtual void            SetVisSet(plVisMgr* visMgr);
        virtual void            SetDISpanVisSet(UInt32 diIndex, hsKeyedObject* reg, hsBool on);

        virtual const plSpan                *GetSpan( UInt32 index ) const { return fSpans[ index ]; }
        virtual const plSpan                *GetSpan( UInt32 diIndex, UInt32 index ) const { return fSpans[ (*fDIIndices[ diIndex ])[ index ] ]; }
        virtual const UInt32                GetNumSpans( void ) const { return fSpans.GetCount(); }
        virtual const hsTArray<plSpan *>    &GetSpanArray( void ) const { return fSpans; }

        hsMatrix44* GetMatrixPalette(int baseMatrix) const { return &fLocalToWorlds[baseMatrix]; }
        const hsMatrix44& GetPaletteMatrix(int i) const { return fLocalToWorlds[i]; }
        void SetInitialBone(int i, const hsMatrix44& l2b, const hsMatrix44& b2l);

        // Get the vertex buffer ref of a given group
        hsGDeviceRef    *GetVertexRef( UInt32 group, UInt32 idx );
        // Get the index buffer ref of a given group
        hsGDeviceRef    *GetIndexRef( UInt32 group, UInt32 idx );

        // BufferGroups accessed only by Pipeline and it's close personal acquaintances.
        plGBufferGroup*                         GetBufferGroup(UInt32 i) const { return fGroups[i]; }
        UInt32                                  GetNumBufferGroups() const { return fGroups.GetCount(); }
        const hsTArray<plGeometrySpan*>&        GetSourceSpans() const { return fSourceSpans; }

        void            DirtyVertexBuffer(UInt32 group, UInt32 idx);
        void            DirtyIndexBuffer(UInt32 group, UInt32 idx);

        // Prepare all internal data structures for rendering
        virtual void    PrepForRender( plPipeline *p );
        void            SetNotReadyToRender() { fReadyToRender = false; }

        virtual hsBool      MsgReceive( plMessage* msg );

        // These two should only be called by the SceneNode
        virtual plKey GetSceneNode() const { return fSceneNode; }
        virtual void SetSceneNode(plKey newNode);

        // Lookup a material in the material array
        hsGMaterial     *GetMaterial( UInt32 index ) const { return ( ( index == (UInt32)-1 ) ? nil : fMaterials[ index ] ); }
        UInt32          GetNumMaterials( void ) const { return fMaterials.GetCount(); }

        // Convert intermediate data into export/run-time-ready data
        virtual void    Optimize( void );
        // Called by the sceneNode to determine if we match the criteria
        virtual hsBool  DoIMatch( const plDrawableCriteria& crit );
        // To set the criteria that this ice fits
        void            SetCriteria( const plDrawableCriteria& crit );

        // Get a bitVector of the spans that are particle spans
        virtual hsBitVector const   &GetParticleSpanVector( void ) const;

        // Get a bitVector of the spans that are blending (i.e. numMatrices > 0)
        virtual hsBitVector const   &GetBlendingSpanVector( void ) const;

        // Set a single bit in the bitVector of spans that are blending
        virtual void    SetBlendingSpanVectorBit( UInt32 bitNumber, hsBool on );

        // Taking span index. DI Index doesn't make sense here, because one object's DI can dereference into many materials etc.
        virtual hsGMaterial*    GetSubMaterial(int index) const;
        virtual hsBool          GetSubVisDists(int index, hsScalar& minDist, hsScalar& maxDist) const; // return true if span invisible before minDist and/or after maxDist

        // Used by the pipeline to keep from reskinning on multiple renders per frame.
        UInt32 GetSkinTime() const { return fSkinTime; }
        void SetSkinTime(UInt32 t) { fSkinTime = t; }

        void            UnPackCluster(plClusterGroup* cluster);

        /// EXPORT-ONLY FUNCTIONS
        virtual UInt32  AddDISpans( hsTArray<plGeometrySpan *> &spans, UInt32 index = (UInt32)-1);
        virtual plDISpanIndex&  GetDISpans( UInt32 index ) const;

        // Data Access functions
        // Runtime
        hsPoint3& GetPosition(int spanIdx, int vtxIdx);
        hsVector3& GetNormal(int spanIdx, int vtxIdx);

        UInt32 GetNumTris(int spanIdx);
        UInt16* GetIndexList(int spanIdx);

        // Conversion (before geometryspans get tossed (at write)).
        UInt32      CvtGetNumVerts(int spanIdx) const;
        hsPoint3&   CvtGetPosition(int spanIdx, int vtxIdx);
        hsVector3&  CvtGetNormal(int spanIdx, int vtxIdx);

        UInt32      CvtGetNumTris(int spanIdx);
        UInt16*     CvtGetIndexList(int spanIdx);

        plGeometrySpan*     GetGeometrySpan(int spanIdx);

        /// DYNAMIC FUNCTIONS
        virtual void    RemoveDISpans( UInt32 index );
        virtual UInt32  AppendDISpans( hsTArray<plGeometrySpan *> &spans, UInt32 index = (UInt32)-1, hsBool clearSpansAfterAdd = true, hsBool doNotAddToSource = false, hsBool addToFront = false, int lod = 0 );
        virtual UInt32  RefreshDISpans( UInt32 diIndex );
        virtual UInt32  RefreshSpan( UInt32 srcSpanIndex );
        virtual void    RemoveDIMatrixSpans(UInt32 index);
        virtual UInt32  AppendDIMatrixSpans(int n);
        virtual UInt32  FindBoneBaseMatrix(const hsTArray<hsMatrix44>& initL2B, hsBool searchAll) const;
        virtual UInt32  NewDIMatrixIndex();
        void            SortSpan( UInt32 index, plPipeline *pipe );
        void            SortVisibleSpans(const hsTArray<Int16>& visList, plPipeline* pipe);
        void            SortVisibleSpansPartial(const hsTArray<Int16>& visList, plPipeline* pipe);
        void            CleanUpGarbage( void ) { IRemoveGarbage(); }

        /// Funky particle system functions
        virtual UInt32  CreateParticleSystem( UInt32 maxNumEmitters, UInt32 maxNumParticles, hsGMaterial *material );
        virtual void    ResetParticleSystem( UInt32 index );
        virtual void    AssignEmitterToParticleSystem( UInt32 index, plParticleEmitter *emitter );
        
        /// SceneViewer only!
        void            GetOrigGeometrySpans( UInt32 diIndex, hsTArray<plGeometrySpan *> &arrayToFill );
        void            ClearAndSetMaterialCount(UInt32 count);
};


#endif // _plDrawableSpans_h