source-engine/engine/disp_defs.h

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2020-04-22 16:56:21 +00:00
//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
// $NoKeywords: $
//=============================================================================//
#ifndef DISPINFO_DEFS_H
#define DISPINFO_DEFS_H
#ifdef _WIN32
#pragma once
#endif
#include "utlvector.h"
#include "materialsystem/imesh.h"
#include "convar.h"
#include "bspfile.h"
#include "filesystem.h"
#include "decal_private.h"
#include "mempool.h"
#include "decal_clip.h"
#include "bitvec.h"
#include "Overlay.h"
#include "zone.h"
extern ConVar r_DrawDisp;
class CDispInfo;
class CDispGroup;
// The texture stage that displacement lightmap coordinates go in.
#define DISP_LMCOORDS_STAGE 1
#define MAX_STATIC_BUFFER_VERTS (8*1024)
#define MAX_STATIC_BUFFER_INDICES (8*1024)
#define MAX_DISP_DECALS 32
#define MAX_EXTRA_DEPENDENCIES 8
#define MAX_RETESSELATE MAX_MAP_DISPINFO // Max number of displacements that can be retesselated per frame.
#define MAX_TOTAL_DISP_DEPENDENCIES (4*2 + 4*MAX_DISP_CORNER_NEIGHBORS + MAX_EXTRA_DEPENDENCIES)
// These hold the HDISPINFOARRAYs.
class CDispArray
{
public:
unsigned short m_CurTag;
CDispInfo *m_pDispInfos;
int m_nDispInfos;
};
// These classes store groups of meshes which can be drawn with one IMesh::Draw() call.
class CGroupMesh
{
public:
IMesh *m_pMesh;
CUtlVector<CDispInfo*> m_DispInfos;
// This list is updated each frame to point at the visible LODs.
CUtlVector<CDispInfo*> m_VisibleDisps;
CUtlVector<CPrimList> m_Visible;
int m_nVisible;
CDispGroup *m_pGroup;
};
class CDispGroup
{
public:
int m_LightmapPageID;
IMaterial *m_pMaterial;
CUtlVector<CGroupMesh*> m_Meshes;
CUtlVector<int> m_DispInfos;
int m_nVisible;
};
// This represents the two neighboring verts that are used to calculate the
// error when removing a side vert of a node.
class CSideVertCorners
{
public:
CFourVerts m_Corners[2];
};
class CDispDecalBase
{
public:
CDispDecalBase( int flags ) : m_Flags(flags) {}
enum
{
NODE_BITFIELD_COMPUTED = 0x1,
DECAL_SHADOW = 0x2,
NO_INTERSECTION = 0x4,
FRAGMENTS_COMPUTED = 0x8, // *non-shadow* fragments
};
// Precalculated flags on the nodes telling which nodes this decal can intersect.
// See CPowerInfo::m_NodeIndexIncrements for a description of how the node tree is
// walked using this bit vector.
CBitVec<85> m_NodeIntersect; // The number of nodes on a 17x17 is 85.
// Note: this must be larger if MAX_MAP_DISP_POWER gets larger.
// Number of triangles + verts that got generated for this decal.
unsigned char m_Flags;
unsigned short m_nVerts;
unsigned short m_nTris;
};
//-----------------------------------------------------------------------------
// Types associated with normal decals
//-----------------------------------------------------------------------------
typedef unsigned short DispDecalFragmentHandle_t;
enum
{
DISP_DECAL_FRAGMENT_HANDLE_INVALID = (DispDecalFragmentHandle_t)~0
};
class CDispDecal : public CDispDecalBase
{
public:
CDispDecal() : CDispDecalBase(0) {}
decal_t *m_pDecal;
float m_DecalWorldScale[2];
Vector m_TextureSpaceBasis[3];
float m_flSize;
DispDecalFragmentHandle_t m_FirstFragment;
};
#pragma pack(1)
class CDispDecalFragment
{
public:
enum { MAX_VERTS = 6 }; // 3 decal verts clipped by 4 planes results in a maximum of 6 (not 8) verts
decal_t *m_pDecal; // Owning Decal
unsigned char m_nVerts; //
CDecalVert* m_pVerts; // m_pVerts[MAX_VERTS];
~CDispDecalFragment()
{
delete[] m_pVerts;
m_pVerts = NULL;
}
};
#pragma pack()
typedef unsigned short DispShadowFragmentHandle_t;
enum
{
DISP_SHADOW_FRAGMENT_HANDLE_INVALID = (DispShadowFragmentHandle_t)~0
};
class CDispShadowDecal : public CDispDecalBase
{
public:
CDispShadowDecal() : CDispDecalBase(DECAL_SHADOW) {}
ShadowHandle_t m_Shadow;
DispShadowFragmentHandle_t m_FirstFragment;
};
class CDispShadowFragment
{
public:
// NOTE: This # is >8 because we have 6 clip planes, it overflowed..
enum { MAX_VERTS = 12 };
int m_nVerts;
ShadowVertex_t* m_ShadowVerts;
~CDispShadowFragment()
{
delete[] m_ShadowVerts;
m_ShadowVerts = NULL;
}
};
class CDispRenderVert
{
public:
Vector m_vPos;
// These are necessary for mat_normals to work
Vector m_vNormal;
Vector m_vSVector;
Vector m_vTVector;
Vector2D m_vTexCoord;
Vector2D m_LMCoords;
};
// This position is about OVERLAY_AVOID_FLICKER_NORMAL_OFFSET inches off the surface
// and is used by overlays and shadows to avoid z-fighting.
inline Vector GetOverlayPos( CMeshReader *pReader, int iVertIndex )
{
Vector vNormal;
pReader->Normal( iVertIndex, vNormal );
return pReader->Position( iVertIndex ) + vNormal * OVERLAY_AVOID_FLICKER_NORMAL_OFFSET;
}
// --------------------------------------------------------------------------------- //
// Global tables.
// --------------------------------------------------------------------------------- //
extern int g_CoreDispNeighborOrientationMap[4][4];
// --------------------------------------------------------------------------------- //
// Global variables.
// --------------------------------------------------------------------------------- //
extern CUtlVector<unsigned char> g_DispLMAlpha;
extern CUtlVector<unsigned char, CHunkMemory<unsigned char> > g_DispLightmapSamplePositions;
extern CUtlVector<CDispGroup*> g_DispGroups;
// CVars.
extern ConVar r_DispWalkable;
extern ConVar r_DispBuildable;
// If this is true, then no backface removal is done.
extern bool g_bDispOrthoRender;
#endif // DISPINFO_DEFS_H