gzdoom/src/gl/scene/gl_drawinfo.h

#ifndef __GL_DRAWINFO_H
#define __GL_DRAWINFO_H

#include "gl/scene/gl_wall.h"

enum GLDrawItemType
{
	GLDIT_WALL,
	GLDIT_FLAT,
	GLDIT_SPRITE,
	GLDIT_POLY,
};

enum DrawListType
{
	GLDL_PLAIN,
	GLDL_MASKED,
	GLDL_MASKEDOFS,
	GLDL_MODELS,

	GLDL_TRANSLUCENT,
	GLDL_TRANSLUCENTBORDER,

	GLDL_TYPES,
};

enum Drawpasses
{
	GLPASS_ALL,			// Main pass with dynamic lights
	GLPASS_LIGHTSONLY,	// only collect dynamic lights
	GLPASS_PLAIN,		// Main pass without dynamic lights
	GLPASS_DECALS,		// Draws a decal
	GLPASS_DECALS_NOFOG,// Draws a decal without setting the fog (used for passes that need a fog layer)
	GLPASS_TRANSLUCENT,	// Draws translucent objects
};

//==========================================================================
//
// Intermediate struct to link one draw item into a draw list
//
// unfortunately this struct must not contain pointers because
// the arrays may be reallocated!
//
//==========================================================================

struct GLDrawItem
{
	GLDrawItemType rendertype;
	int index;

	GLDrawItem(GLDrawItemType _rendertype,int _index) : rendertype(_rendertype),index(_index) {}
};

struct SortNode
{
	int itemindex;
	SortNode * parent;
	SortNode * next;		// unsorted successor
	SortNode * left;		// left side of this node
	SortNode * equal;		// equal to this node
	SortNode * right;		// right side of this node


	void UnlinkFromChain();
	void Link(SortNode * hook);
	void AddToEqual(SortNode * newnode);
	void AddToLeft (SortNode * newnode);
	void AddToRight(SortNode * newnode);
};

//==========================================================================
//
// One draw list. This contains all info for one type of rendering data
//
//==========================================================================

struct GLDrawList
{
//private:
	TArray<GLWall> walls;
	TArray<GLFlat> flats;
	TArray<GLSprite> sprites;
	TArray<GLDrawItem> drawitems;
	int SortNodeStart;
	SortNode * sorted;

public:
	GLDrawList()
	{
		next=NULL;
		SortNodeStart=-1;
		sorted=NULL;
	}

	~GLDrawList()
	{
		Reset();
	}

	unsigned int Size()
	{
		return drawitems.Size();
	}

	void AddWall(GLWall * wall);
	void AddFlat(GLFlat * flat);
	void AddSprite(GLSprite * sprite);
	void Reset();
	void Sort();


	void MakeSortList();
	SortNode * FindSortPlane(SortNode * head);
	SortNode * FindSortWall(SortNode * head);
	void SortPlaneIntoPlane(SortNode * head,SortNode * sort);
	void SortWallIntoPlane(SortNode * head,SortNode * sort);
	void SortSpriteIntoPlane(SortNode * head,SortNode * sort);
	void SortWallIntoWall(SortNode * head,SortNode * sort);
	void SortSpriteIntoWall(SortNode * head,SortNode * sort);
	int CompareSprites(SortNode * a,SortNode * b);
	SortNode * SortSpriteList(SortNode * head);
	SortNode * DoSort(SortNode * head);
	
	void DoDraw(int pass, int index, bool trans);
	void DoDrawSorted(SortNode * node);
	void DrawSorted();
	void Draw(int pass);
	
	GLDrawList * next;
} ;


//==========================================================================
//
// these are used to link faked planes due to missing textures to a sector
//
//==========================================================================
struct gl_subsectorrendernode
{
	gl_subsectorrendernode *	next;
	subsector_t *				sub;
};


struct FDrawInfo
{
	struct wallseg
	{
		float x1, y1, z1, x2, y2, z2;
	};

	bool temporary;


	struct MissingTextureInfo
	{
		seg_t * seg;
		subsector_t * sub;
		fixed_t planez;
		fixed_t planezfront;
	};

	struct MissingSegInfo
	{
		seg_t * seg;
		int MTI_Index;	// tells us which MissingTextureInfo represents this seg.
	};

	struct SubsectorHackInfo
	{
		subsector_t * sub;
		BYTE flags;
	};

	TArray<BYTE> sectorrenderflags;
	TArray<BYTE> ss_renderflags;
	TArray<BYTE> no_renderflags;

	TArray<MissingTextureInfo> MissingUpperTextures;
	TArray<MissingTextureInfo> MissingLowerTextures;

	TArray<MissingSegInfo> MissingUpperSegs;
	TArray<MissingSegInfo> MissingLowerSegs;

	TArray<SubsectorHackInfo> SubsectorHacks;

	TArray<gl_subsectorrendernode*> otherfloorplanes;
	TArray<gl_subsectorrendernode*> otherceilingplanes;

	TArray<sector_t *> CeilingStacks;
	TArray<sector_t *> FloorStacks;

	TArray<subsector_t *> HandledSubsectors;

	FDrawInfo * next;
	GLDrawList drawlists[GLDL_TYPES];

	FDrawInfo();
	~FDrawInfo();
	void ClearBuffers();

	bool DoOneSectorUpper(subsector_t * subsec, fixed_t planez);
	bool DoOneSectorLower(subsector_t * subsec, fixed_t planez);
	bool DoFakeBridge(subsector_t * subsec, fixed_t planez);
	bool DoFakeCeilingBridge(subsector_t * subsec, fixed_t planez);

	bool CheckAnchorFloor(subsector_t * sub);
	bool CollectSubsectorsFloor(subsector_t * sub, sector_t * anchor);
	bool CheckAnchorCeiling(subsector_t * sub);
	bool CollectSubsectorsCeiling(subsector_t * sub, sector_t * anchor);
	void CollectSectorStacksCeiling(subsector_t * sub, sector_t * anchor);
	void CollectSectorStacksFloor(subsector_t * sub, sector_t * anchor);

	void AddUpperMissingTexture(side_t * side, subsector_t *sub, fixed_t backheight);
	void AddLowerMissingTexture(side_t * side, subsector_t *sub, fixed_t backheight);
	void HandleMissingTextures();
	void DrawUnhandledMissingTextures();
	void AddHackedSubsector(subsector_t * sub);
	void HandleHackedSubsectors();
	void AddFloorStack(sector_t * sec);
	void AddCeilingStack(sector_t * sec);
	void ProcessSectorStacks();

	void AddOtherFloorPlane(int sector, gl_subsectorrendernode * node);
	void AddOtherCeilingPlane(int sector, gl_subsectorrendernode * node);

	void StartScene();
	void SetupFloodStencil(wallseg * ws);
	void ClearFloodStencil(wallseg * ws);
	void DrawFloodedPlane(wallseg * ws, float planez, sector_t * sec, bool ceiling);
	void FloodUpperGap(seg_t * seg);
	void FloodLowerGap(seg_t * seg);

	static void StartDrawInfo();
	static void EndDrawInfo();

	gl_subsectorrendernode * GetOtherFloorPlanes(unsigned int sector)
	{
		if (sector<otherfloorplanes.Size()) return otherfloorplanes[sector];
		else return NULL;
	}

	gl_subsectorrendernode * GetOtherCeilingPlanes(unsigned int sector)
	{
		if (sector<otherceilingplanes.Size()) return otherceilingplanes[sector];
		else return NULL;
	}
};

class FDrawInfoList
{
	TDeletingArray<FDrawInfo *> mList;

public:

	FDrawInfo *GetNew();
	void Release(FDrawInfo *);
};


extern FDrawInfo * gl_drawinfo;

void gl_SetPlaneTextureRotation(const GLSectorPlane * secplane, FMaterial * gltexture);
void gl_SetRenderStyle(FRenderStyle style, bool drawopaque, bool allowcolorblending);

#endif
- added GL render as of SVN revision 1600. 2013-06-23 07:49:34 +00:00			`#ifndef __GL_DRAWINFO_H`
			`#define __GL_DRAWINFO_H`

			`#include "gl/scene/gl_wall.h"`

			`enum GLDrawItemType`
			`{`
			`GLDIT_WALL,`
			`GLDIT_FLAT,`
			`GLDIT_SPRITE,`
			`GLDIT_POLY,`
			`};`

			`enum DrawListType`
			`{`
			`GLDL_PLAIN,`
			`GLDL_MASKED,`
- move models into their own draw list to avoid frequent buffer changes. - same for SKYHACK walls. Although rare, they would get in the way of optimizing the draw calls if not being separated out. 2014-07-15 19:16:59 +00:00			`GLDL_MASKEDOFS,`
			`GLDL_MODELS,`
- added GL render as of SVN revision 1600. 2013-06-23 07:49:34 +00:00
			`GLDL_TRANSLUCENT,`
			`GLDL_TRANSLUCENTBORDER,`

			`GLDL_TYPES,`
			`};`

			`enum Drawpasses`
			`{`
- removed texture based dynamic lighting. For GL 3.x the shader approach is always better. - fixed: sky fog was not unset. 2014-07-15 18:49:21 +00:00			`GLPASS_ALL, // Main pass with dynamic lights`
- allow reallocation of light buffer if more lights are needed. - added a light preprocessing pass to the renderer so that a non-persistent buffer can be used with minimal mapping/unmapping. This only gets used if necessary because it adds some overhead to the renderer. 2014-08-19 12:18:21 +00:00			`GLPASS_LIGHTSONLY, // only collect dynamic lights`
			`GLPASS_PLAIN, // Main pass without dynamic lights`
- added GL render as of SVN revision 1600. 2013-06-23 07:49:34 +00:00			`GLPASS_DECALS, // Draws a decal`
			`GLPASS_DECALS_NOFOG,// Draws a decal without setting the fog (used for passes that need a fog layer)`
			`GLPASS_TRANSLUCENT, // Draws translucent objects`
			`};`

			`//==========================================================================`
			`//`
			`// Intermediate struct to link one draw item into a draw list`
			`//`
			`// unfortunately this struct must not contain pointers because`
			`// the arrays may be reallocated!`
			`//`
			`//==========================================================================`

			`struct GLDrawItem`
			`{`
			`GLDrawItemType rendertype;`
			`int index;`

			`GLDrawItem(GLDrawItemType _rendertype,int _index) : rendertype(_rendertype),index(_index) {}`
			`};`

			`struct SortNode`
			`{`
			`int itemindex;`
			`SortNode * parent;`
			`SortNode * next; // unsorted successor`
			`SortNode * left; // left side of this node`
			`SortNode * equal; // equal to this node`
			`SortNode * right; // right side of this node`


			`void UnlinkFromChain();`
			`void Link(SortNode * hook);`
			`void AddToEqual(SortNode * newnode);`
			`void AddToLeft (SortNode * newnode);`
			`void AddToRight(SortNode * newnode);`
			`};`

			`//==========================================================================`
			`//`
			`// One draw list. This contains all info for one type of rendering data`
			`//`
			`//==========================================================================`

			`struct GLDrawList`
			`{`
			`//private:`
			`TArray<GLWall> walls;`
			`TArray<GLFlat> flats;`
			`TArray<GLSprite> sprites;`
			`TArray<GLDrawItem> drawitems;`
			`int SortNodeStart;`
			`SortNode * sorted;`

			`public:`
			`GLDrawList()`
			`{`
			`next=NULL;`
			`SortNodeStart=-1;`
			`sorted=NULL;`
			`}`

			`~GLDrawList()`
			`{`
			`Reset();`
			`}`

- move models into their own draw list to avoid frequent buffer changes. - same for SKYHACK walls. Although rare, they would get in the way of optimizing the draw calls if not being separated out. 2014-07-15 19:16:59 +00:00			`unsigned int Size()`
			`{`
			`return drawitems.Size();`
			`}`

- added GL render as of SVN revision 1600. 2013-06-23 07:49:34 +00:00			`void AddWall(GLWall * wall);`
			`void AddFlat(GLFlat * flat);`
			`void AddSprite(GLSprite * sprite);`
			`void Reset();`
			`void Sort();`


			`void MakeSortList();`
			`SortNode * FindSortPlane(SortNode * head);`
			`SortNode * FindSortWall(SortNode * head);`
			`void SortPlaneIntoPlane(SortNode * head,SortNode * sort);`
			`void SortWallIntoPlane(SortNode * head,SortNode * sort);`
			`void SortSpriteIntoPlane(SortNode * head,SortNode * sort);`
			`void SortWallIntoWall(SortNode * head,SortNode * sort);`
			`void SortSpriteIntoWall(SortNode * head,SortNode * sort);`
			`int CompareSprites(SortNode * a,SortNode * b);`
			`SortNode * SortSpriteList(SortNode * head);`
			`SortNode * DoSort(SortNode * head);`

- allow reallocation of light buffer if more lights are needed. - added a light preprocessing pass to the renderer so that a non-persistent buffer can be used with minimal mapping/unmapping. This only gets used if necessary because it adds some overhead to the renderer. 2014-08-19 12:18:21 +00:00			`void DoDraw(int pass, int index, bool trans);`
- added GL render as of SVN revision 1600. 2013-06-23 07:49:34 +00:00			`void DoDrawSorted(SortNode * node);`
			`void DrawSorted();`
			`void Draw(int pass);`

			`GLDrawList * next;`
			`} ;`


			`//==========================================================================`
			`//`
			`// these are used to link faked planes due to missing textures to a sector`
			`//`
			`//==========================================================================`
			`struct gl_subsectorrendernode`
			`{`
			`gl_subsectorrendernode * next;`
			`subsector_t * sub;`
			`};`


			`struct FDrawInfo`
			`{`
			`struct wallseg`
			`{`
			`float x1, y1, z1, x2, y2, z2;`
			`};`

			`bool temporary;`



			`struct MissingTextureInfo`
			`{`
			`seg_t * seg;`
			`subsector_t * sub;`
			`fixed_t planez;`
			`fixed_t planezfront;`
			`};`

			`struct MissingSegInfo`
			`{`
			`seg_t * seg;`
			`int MTI_Index; // tells us which MissingTextureInfo represents this seg.`
			`};`

			`struct SubsectorHackInfo`
			`{`
			`subsector_t * sub;`
			`BYTE flags;`
			`};`

			`TArray<BYTE> sectorrenderflags;`
			`TArray<BYTE> ss_renderflags;`
			`TArray<BYTE> no_renderflags;`

			`TArray<MissingTextureInfo> MissingUpperTextures;`
			`TArray<MissingTextureInfo> MissingLowerTextures;`

			`TArray<MissingSegInfo> MissingUpperSegs;`
			`TArray<MissingSegInfo> MissingLowerSegs;`

			`TArray<SubsectorHackInfo> SubsectorHacks;`

			`TArray<gl_subsectorrendernode*> otherfloorplanes;`
			`TArray<gl_subsectorrendernode*> otherceilingplanes;`

			`TArray<sector_t *> CeilingStacks;`
			`TArray<sector_t *> FloorStacks;`

			`TArray<subsector_t *> HandledSubsectors;`

			`FDrawInfo * next;`
			`GLDrawList drawlists[GLDL_TYPES];`

			`FDrawInfo();`
			`~FDrawInfo();`
			`void ClearBuffers();`

			`bool DoOneSectorUpper(subsector_t * subsec, fixed_t planez);`
			`bool DoOneSectorLower(subsector_t * subsec, fixed_t planez);`
			`bool DoFakeBridge(subsector_t * subsec, fixed_t planez);`
			`bool DoFakeCeilingBridge(subsector_t * subsec, fixed_t planez);`

			`bool CheckAnchorFloor(subsector_t * sub);`
			`bool CollectSubsectorsFloor(subsector_t * sub, sector_t * anchor);`
			`bool CheckAnchorCeiling(subsector_t * sub);`
			`bool CollectSubsectorsCeiling(subsector_t * sub, sector_t * anchor);`
			`void CollectSectorStacksCeiling(subsector_t * sub, sector_t * anchor);`
			`void CollectSectorStacksFloor(subsector_t * sub, sector_t * anchor);`

			`void AddUpperMissingTexture(side_t * side, subsector_t *sub, fixed_t backheight);`
			`void AddLowerMissingTexture(side_t * side, subsector_t *sub, fixed_t backheight);`
			`void HandleMissingTextures();`
			`void DrawUnhandledMissingTextures();`
			`void AddHackedSubsector(subsector_t * sub);`
			`void HandleHackedSubsectors();`
			`void AddFloorStack(sector_t * sec);`
			`void AddCeilingStack(sector_t * sec);`
			`void ProcessSectorStacks();`

			`void AddOtherFloorPlane(int sector, gl_subsectorrendernode * node);`
			`void AddOtherCeilingPlane(int sector, gl_subsectorrendernode * node);`

			`void StartScene();`
			`void SetupFloodStencil(wallseg * ws);`
			`void ClearFloodStencil(wallseg * ws);`
			`void DrawFloodedPlane(wallseg * ws, float planez, sector_t * sec, bool ceiling);`
			`void FloodUpperGap(seg_t * seg);`
			`void FloodLowerGap(seg_t * seg);`

			`static void StartDrawInfo();`
			`static void EndDrawInfo();`

			`gl_subsectorrendernode * GetOtherFloorPlanes(unsigned int sector)`
			`{`
			`if (sector<otherfloorplanes.Size()) return otherfloorplanes[sector];`
			`else return NULL;`
			`}`

			`gl_subsectorrendernode * GetOtherCeilingPlanes(unsigned int sector)`
			`{`
			`if (sector<otherceilingplanes.Size()) return otherceilingplanes[sector];`
			`else return NULL;`
			`}`
			`};`

			`class FDrawInfoList`
			`{`
			`TDeletingArray<FDrawInfo *> mList;`

			`public:`

			`FDrawInfo *GetNew();`
			`void Release(FDrawInfo *);`
			`};`


			`extern FDrawInfo * gl_drawinfo;`

- remove use of builtin texture matrices. - make matrix class single precision. 2014-07-13 18:41:20 +00:00			`void gl_SetPlaneTextureRotation(const GLSectorPlane * secplane, FMaterial * gltexture);`
- added GL render as of SVN revision 1600. 2013-06-23 07:49:34 +00:00			`void gl_SetRenderStyle(FRenderStyle style, bool drawopaque, bool allowcolorblending);`

			`#endif`