CWE-ou-minkata/Sources/Plasma/PubUtilLib/plGRenderProcs/hsGRenderProcs.h

/*==LICENSE==*

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

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*==LICENSE==*/

#ifndef hsGRenderProcs_inc
#define hsGRenderProcs_inc

#include "hsRefCnt.h"
#include "hsScalar.h"
#include "hsMemory.h"
#include "hsBiExpander.h"
#include "../plPipeline/hsGColorizer.h"
#include "../plResMgr/plCreatable.h"

class plPipeline;
class plDrawable;
class hsTriangle3;
struct hsGTriVertex;
struct hsGVertex3;
struct hsGShadeVertex;
struct hsGSplat3;
class hsStream;
class plKey;
class hsBounds3Ext;
class hsResMgr;

class hsGRenderProcs : public plCreatable { 
public:
	enum {
		kMaxLabelLen			= 128
	};
	enum ProcType {
		kTypeAngleFade,
		kTypeDistFade,
		kTypeMotionBlur1,
		kTypeMotionBlur2,
		kTypeIntenseAlpha,
		kTypeGlobalShade,
		kTypeObjDistFade,
		kTypeDistShade,
		kTypeObjDistShade
	};
	enum {
		kNone					= 0x0,
		kInclusive				= 0x1,	// Affect children
		kNOP					= 0x2,	// Turned off (till EndObject)
		kOpaque					= 0x4,
		kCulled					= 0x8,
		kObjectRefs				= 0x10,
		kObjectRefsInit			= 0x20
	};
private:
	// Base class private stuff for managing the Queue of Procs on the device.

	UInt32						fLinkCount;
	hsGRenderProcs*				fNext;
	hsGRenderProcs**			fBack;
	
	hsGRenderProcs**			IOneBeforeMe(hsGRenderProcs** base);
	void						IInsert(hsGRenderProcs** beforeMe);
	void						IDetach();

protected:

	UInt32						fFlags;

	hsGColorizer				fColorizer;

	plPipeline*				fPipeline;

	hsDynamicArray<plKey*>	fObjectRefs;
public: 
	hsGRenderProcs();
	virtual ~hsGRenderProcs();

	// BeginTree returns false if entire subtree is don't bother to draw, 
	// else true. Mostly a culling tool. 
	virtual hsBool32 BeginTree(plPipeline* pipe, plDrawable* root);
	
	// BeginObject returns true if the object should be drawn, false if 
	// don't bother. Can also do any initialization it wants. Should this 
	// get something more innocuous like a bound instead of the SceneObject? 
	// Is there anything else it might need to know? 
	virtual hsBool32 BeginObject(plPipeline* pipe, plDrawable* obj);
	
	// ProcessVerts takes the list of TriVerts and does what it will. 
	// I'll outline the hsGTriVertex below. The difference between 
	// the BaseVertex list and the UsedVertex list is interpolation. 
	// Shade values and generated Texture Coords are computed for 
	// the Base Triangle only, and then interpolated for vertices 
	// generated by clipping. So Shade Values and Texture Coordinates 
	// should only be computed in ProcessBaseVerts(). On the other 
	// hand, only the vertices from actual drawn triangles are 
	// transformed, and hence have a screen position to mess with. 
	// So any wiggling of the screen position should happen in 
	// ProcessUsedVerts(). These functions might be better named 
	// ProcessShadeVerts() and ProcessXformVerts(), except that 
	// vertex illumination (shade) is interpolated, but then 
	// the interpolated shade is fed into the material to calculate 
	// color. So messing with final color would happen in ProcessUsedVerts(), 
	// whereas messing with illumination's in ProcessBaseVerts(). Messing 
	// with UV's is equally valid in either. In general though, the number 
	// of BaseVerts is less than or equal to the number of UsedVerts. Most 
	// shaders would have one or the other a no-op.

	// Process list of unique vertices (with unique hsGXformVerts) which will be drawn to screen
	virtual void ProcessScreenVerts(hsExpander<hsGVertex3*>& vList) {}

	// Take a list of verts and modulate shades for them. Care should be taken to only bother with verts that
	// are not (hsGVertex3::kCulled|hsGVertex3::kDisabled). Also, any verts that this RenderProc causes
	// to go completely transparent should be flagged hsGVertex3::kCulled (NOT DISABLED).
	// See hsSfxDistFade for example (not exemplary) code.

	// Process list of unique vertices (unique hsGShadeVerts) before interpolation
	virtual void ProcessPreInterpShadeVerts(hsExpander<hsGShadeVertex*>& vList) {}
	// Process list of unique vertices (unique hsGShadeVerts) after interpolation - these will be drawn to screen
	virtual void ProcessPostInterpShadeVerts(hsExpander<hsGShadeVertex*>& vList) {}

	// Process list of unique Pre or Post Interpolation TriVerts (with hsGShade and hsGXformVerts)
	// While the TriVerts are unique, there may be sharing among constituents, i.e. position and uv.
	// Care must be taken when accumulating effects.
	virtual void ProcessPreInterpVerts(hsExpander<hsGTriVertex*>& vList) {}
	virtual void ProcessPostInterpVerts(hsExpander<hsGTriVertex*>& vList) {}

	// Process list of triangles which are headed for the screen. vList is the full list of unique TriVerts
	// used by these triangles. If triangles are added, any generated verts MUST be added to vList. If
	// Triangles are removed, verts may be removed from vList (keeping in mind that vList verts may be
	// shared between triangles).
	virtual void ProcessPreClipTris(hsExpander<hsTriangle3*>& tList, hsExpander<hsGTriVertex*>& vList) {}
	virtual void ProcessPreInterpTris(hsExpander<hsTriangle3*>& tList, hsExpander<hsGTriVertex*>& vList) {}
	virtual void ProcessPostInterpTris(hsExpander<hsTriangle3*>& tList, hsExpander<hsGTriVertex*>& vList) {}
	
	// Any cleanup for this object 
	virtual void EndObject();
	
	// Any cleanup for this subtree 
	virtual void EndTree();
	
	// Shaders can set their priority to affect order in which they are called 
	// When pushed onto device, device uses this priority to sort into queue 
	virtual hsScalar GetPriority() { return 0; }
	
	// When a shader is pushed onto the device (by an object), the object 
	// will pop it back off either before or after drawing its children, 
	// depending on Inclusive(). Not meaningful for mate
	virtual hsBool32 Inclusive() { return fFlags & kInclusive; }

	virtual void Enqueue(hsGRenderProcs** list);
	virtual void Dequeue();
	hsGRenderProcs* GetNext() { return fNext; }

	// External object references. Individual RenderProc type responsible for what they're used for.
	void			SetNumObjectRefs(int n);
	UInt32			GetNumObjectRefs() { return fObjectRefs.GetCount(); }
	void			AddObjectRef(plKey* key) { fObjectRefs.Append(key); fFlags |= kObjectRefs; }
	void			SetObjectRef(plKey* key, int i=0);
	void			InsertObjectRef(int i, plKey* key) { fObjectRefs.InsertAtIndex(i, key); fFlags |= kObjectRefs; }
	plDrawable*	GetObjectRef(int i);
	plKey*	GetObjectRefKey(int i) { return fObjectRefs[i]; }
	void			ReadObjectRefs(hsStream* s, hsResMgr* mgr);
	void			WriteObjectRefs(hsStream* s, hsResMgr* mgr);


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

	virtual void Read(hsStream* s) = 0;
	virtual void Write(hsStream* s) = 0;

	virtual const char* GetLabel() const = 0;
	virtual ProcType GetType() const = 0;

	UInt32	GetFlags() { return fFlags; }
	void SetFlags(UInt32 f) { fFlags = f; }

	CLASSNAME_REGISTER( hsGRenderProcs );
	GETINTERFACE_ANY( hsGRenderProcs, plCreatable );
}; 

#endif // hsGRenderProcs_inc