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ae63021d00
There were lots of places in the code that called Sys_GrabInput(), some of them each frame. Most of this is unified in events.cpp now, in handleMouseGrab() which is called once per frame by Sys_GenerateEvents() - this makes reasoning about when the mouse is grabbed and when not a lot easier. Sys_GrabInput(false) still is called in a few places, before operations that tend to take long (like loading a map or vid_restart), but (hopefully) not regularly anymore. The other big change is that the game now uses SDLs absolute mouse mode for fullscreen menus (except the PDA which is an ugly hack), so the ingame cursor is at the same position as the system cursor, which especially helps when debugging with `in_nograb 1` and should also help if someone wants to integrate an additional GUI toolkit like Dear ImGui.
1655 lines
64 KiB
C++
1655 lines
64 KiB
C++
/*
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===========================================================================
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Doom 3 GPL Source Code
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Copyright (C) 1999-2011 id Software LLC, a ZeniMax Media company.
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This file is part of the Doom 3 GPL Source Code ("Doom 3 Source Code").
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Doom 3 Source Code is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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Doom 3 Source Code is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with Doom 3 Source Code. If not, see <http://www.gnu.org/licenses/>.
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In addition, the Doom 3 Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 Source Code. If not, please request a copy in writing from id Software at the address below.
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If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.
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===========================================================================
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*/
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#ifndef __TR_LOCAL_H__
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#define __TR_LOCAL_H__
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class idScreenRect; // yay for include recursion
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#include "renderer/Image.h"
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#include "renderer/Interaction.h"
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#include "renderer/MegaTexture.h"
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#include "renderer/ModelDecal.h"
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#include "renderer/ModelOverlay.h"
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#include "renderer/RenderSystem.h"
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#include "renderer/RenderWorld.h"
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class idRenderWorldLocal;
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// everything that is needed by the backend needs
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// to be double buffered to allow it to run in
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// parallel on a dual cpu machine
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const int SMP_FRAMES = 1;
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const int FALLOFF_TEXTURE_SIZE = 64;
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const float DEFAULT_FOG_DISTANCE = 500.0f;
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const int FOG_ENTER_SIZE = 64;
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const float FOG_ENTER = (FOG_ENTER_SIZE+1.0f)/(FOG_ENTER_SIZE*2);
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// picky to get the bilerp correct at terminator
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// idScreenRect gets carried around with each drawSurf, so it makes sense
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// to keep it compact, instead of just using the idBounds class
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class idScreenRect {
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public:
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short x1, y1, x2, y2; // inclusive pixel bounds inside viewport
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float zmin, zmax; // for depth bounds test
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void Clear(); // clear to backwards values
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void AddPoint( float x, float y ); // adds a point
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void Expand(); // expand by one pixel each way to fix roundoffs
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void Intersect( const idScreenRect &rect );
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void Union( const idScreenRect &rect );
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bool Equals( const idScreenRect &rect ) const;
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bool IsEmpty() const;
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};
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idScreenRect R_ScreenRectFromViewFrustumBounds( const idBounds &bounds );
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void R_ShowColoredScreenRect( const idScreenRect &rect, int colorIndex );
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typedef enum {
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DC_BAD,
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DC_RENDERVIEW,
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DC_UPDATE_ENTITYDEF,
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DC_DELETE_ENTITYDEF,
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DC_UPDATE_LIGHTDEF,
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DC_DELETE_LIGHTDEF,
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DC_LOADMAP,
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DC_CROP_RENDER,
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DC_UNCROP_RENDER,
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DC_CAPTURE_RENDER,
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DC_END_FRAME,
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DC_DEFINE_MODEL,
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DC_SET_PORTAL_STATE,
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DC_UPDATE_SOUNDOCCLUSION,
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DC_GUI_MODEL
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} demoCommand_t;
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/*
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==============================================================================
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SURFACES
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==============================================================================
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*/
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// drawSurf_t structures command the back end to render surfaces
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// a given srfTriangles_t may be used with multiple viewEntity_t,
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// as when viewed in a subview or multiple viewport render, or
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// with multiple shaders when skinned, or, possibly with multiple
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// lights, although currently each lighting interaction creates
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// unique srfTriangles_t
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// drawSurf_t are always allocated and freed every frame, they are never cached
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static const int DSF_VIEW_INSIDE_SHADOW = 1;
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typedef struct drawSurf_s {
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const srfTriangles_t *geo;
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const struct viewEntity_s *space;
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const idMaterial *material; // may be NULL for shadow volumes
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float sort; // material->sort, modified by gui / entity sort offsets
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const float *shaderRegisters; // evaluated and adjusted for referenceShaders
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const struct drawSurf_s *nextOnLight; // viewLight chains
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idScreenRect scissorRect; // for scissor clipping, local inside renderView viewport
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int dsFlags; // DSF_VIEW_INSIDE_SHADOW, etc
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struct vertCache_s *dynamicTexCoords; // float * in vertex cache memory
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// specular directions for non vertex program cards, skybox texcoords, etc
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} drawSurf_t;
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typedef struct {
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int numPlanes; // this is always 6 for now
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idPlane planes[6];
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// positive sides facing inward
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// plane 5 is always the plane the projection is going to, the
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// other planes are just clip planes
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// all planes are in global coordinates
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bool makeClippedPlanes;
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// a projected light with a single frustum needs to make sil planes
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// from triangles that clip against side planes, but a point light
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// that has adjacent frustums doesn't need to
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} shadowFrustum_t;
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// areas have references to hold all the lights and entities in them
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typedef struct areaReference_s {
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struct areaReference_s *areaNext; // chain in the area
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struct areaReference_s *areaPrev;
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struct areaReference_s *ownerNext; // chain on either the entityDef or lightDef
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idRenderEntityLocal * entity; // only one of entity / light will be non-NULL
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idRenderLightLocal * light; // only one of entity / light will be non-NULL
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struct portalArea_s * area; // so owners can find all the areas they are in
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} areaReference_t;
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// idRenderLight should become the new public interface replacing the qhandle_t to light defs in the idRenderWorld interface
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class idRenderLight {
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public:
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virtual ~idRenderLight() {}
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virtual void FreeRenderLight() = 0;
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virtual void UpdateRenderLight( const renderLight_t *re, bool forceUpdate = false ) = 0;
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virtual void GetRenderLight( renderLight_t *re ) = 0;
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virtual void ForceUpdate() = 0;
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virtual int GetIndex() = 0;
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};
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// idRenderEntity should become the new public interface replacing the qhandle_t to entity defs in the idRenderWorld interface
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class idRenderEntity {
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public:
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virtual ~idRenderEntity() {}
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virtual void FreeRenderEntity() = 0;
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virtual void UpdateRenderEntity( const renderEntity_t *re, bool forceUpdate = false ) = 0;
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virtual void GetRenderEntity( renderEntity_t *re ) = 0;
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virtual void ForceUpdate() = 0;
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virtual int GetIndex() = 0;
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// overlays are extra polygons that deform with animating models for blood and damage marks
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virtual void ProjectOverlay( const idPlane localTextureAxis[2], const idMaterial *material ) = 0;
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virtual void RemoveDecals() = 0;
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};
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class idRenderLightLocal : public idRenderLight {
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public:
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idRenderLightLocal();
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virtual void FreeRenderLight();
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virtual void UpdateRenderLight( const renderLight_t *re, bool forceUpdate = false );
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virtual void GetRenderLight( renderLight_t *re );
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virtual void ForceUpdate();
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virtual int GetIndex();
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renderLight_t parms; // specification
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bool lightHasMoved; // the light has changed its position since it was
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// first added, so the prelight model is not valid
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float modelMatrix[16]; // this is just a rearrangement of parms.axis and parms.origin
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idRenderWorldLocal * world;
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int index; // in world lightdefs
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int areaNum; // if not -1, we may be able to cull all the light's
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// interactions if !viewDef->connectedAreas[areaNum]
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int lastModifiedFrameNum; // to determine if it is constantly changing,
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// and should go in the dynamic frame memory, or kept
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// in the cached memory
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bool archived; // for demo writing
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// derived information
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idPlane lightProject[4];
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const idMaterial * lightShader; // guaranteed to be valid, even if parms.shader isn't
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idImage * falloffImage;
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idVec3 globalLightOrigin; // accounting for lightCenter and parallel
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idPlane frustum[6]; // in global space, positive side facing out, last two are front/back
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idWinding * frustumWindings[6]; // used for culling
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srfTriangles_t * frustumTris; // triangulated frustumWindings[]
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int numShadowFrustums; // one for projected lights, usually six for point lights
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shadowFrustum_t shadowFrustums[6];
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int viewCount; // if == tr.viewCount, the light is on the viewDef->viewLights list
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struct viewLight_s * viewLight;
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areaReference_t * references; // each area the light is present in will have a lightRef
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idInteraction * firstInteraction; // doubly linked list
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idInteraction * lastInteraction;
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struct doublePortal_s * foggedPortals;
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};
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class idRenderEntityLocal : public idRenderEntity {
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public:
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idRenderEntityLocal();
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virtual void FreeRenderEntity();
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virtual void UpdateRenderEntity( const renderEntity_t *re, bool forceUpdate = false );
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virtual void GetRenderEntity( renderEntity_t *re );
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virtual void ForceUpdate();
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virtual int GetIndex();
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// overlays are extra polygons that deform with animating models for blood and damage marks
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virtual void ProjectOverlay( const idPlane localTextureAxis[2], const idMaterial *material );
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virtual void RemoveDecals();
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renderEntity_t parms;
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float modelMatrix[16]; // this is just a rearrangement of parms.axis and parms.origin
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idRenderWorldLocal * world;
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int index; // in world entityDefs
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int lastModifiedFrameNum; // to determine if it is constantly changing,
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// and should go in the dynamic frame memory, or kept
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// in the cached memory
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bool archived; // for demo writing
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idRenderModel * dynamicModel; // if parms.model->IsDynamicModel(), this is the generated data
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int dynamicModelFrameCount; // continuously animating dynamic models will recreate
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// dynamicModel if this doesn't == tr.viewCount
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idRenderModel * cachedDynamicModel;
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idBounds referenceBounds; // the local bounds used to place entityRefs, either from parms or a model
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// a viewEntity_t is created whenever a idRenderEntityLocal is considered for inclusion
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// in a given view, even if it turns out to not be visible
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int viewCount; // if tr.viewCount == viewCount, viewEntity is valid,
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// but the entity may still be off screen
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struct viewEntity_s * viewEntity; // in frame temporary memory
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int visibleCount;
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// if tr.viewCount == visibleCount, at least one ambient
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// surface has actually been added by R_AddAmbientDrawsurfs
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// note that an entity could still be in the view frustum and not be visible due
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// to portal passing
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idRenderModelDecal * decals; // chain of decals that have been projected on this model
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idRenderModelOverlay * overlay; // blood overlays on animated models
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areaReference_t * entityRefs; // chain of all references
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idInteraction * firstInteraction; // doubly linked list
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idInteraction * lastInteraction;
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bool needsPortalSky;
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};
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// viewLights are allocated on the frame temporary stack memory
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// a viewLight contains everything that the back end needs out of an idRenderLightLocal,
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// which the front end may be modifying simultaniously if running in SMP mode.
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// a viewLight may exist even without any surfaces, and may be relevent for fogging,
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// but should never exist if its volume does not intersect the view frustum
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typedef struct viewLight_s {
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struct viewLight_s * next;
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// back end should NOT reference the lightDef, because it can change when running SMP
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idRenderLightLocal * lightDef;
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// for scissor clipping, local inside renderView viewport
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// scissorRect.Empty() is true if the viewEntity_t was never actually
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// seen through any portals
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idScreenRect scissorRect;
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// if the view isn't inside the light, we can use the non-reversed
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// shadow drawing, avoiding the draws of the front and rear caps
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bool viewInsideLight;
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// true if globalLightOrigin is inside the view frustum, even if it may
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// be obscured by geometry. This allows us to skip shadows from non-visible objects
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bool viewSeesGlobalLightOrigin;
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// if !viewInsideLight, the corresponding bit for each of the shadowFrustum
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// projection planes that the view is on the negative side of will be set,
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// allowing us to skip drawing the projected caps of shadows if we can't see the face
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int viewSeesShadowPlaneBits;
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idVec3 globalLightOrigin; // global light origin used by backend
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idPlane lightProject[4]; // light project used by backend
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idPlane fogPlane; // fog plane for backend fog volume rendering
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const srfTriangles_t * frustumTris; // light frustum for backend fog volume rendering
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const idMaterial * lightShader; // light shader used by backend
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const float * shaderRegisters; // shader registers used by backend
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idImage * falloffImage; // falloff image used by backend
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const struct drawSurf_s *globalShadows; // shadow everything
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const struct drawSurf_s *localInteractions; // don't get local shadows
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const struct drawSurf_s *localShadows; // don't shadow local Surfaces
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const struct drawSurf_s *globalInteractions; // get shadows from everything
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const struct drawSurf_s *translucentInteractions; // get shadows from everything
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} viewLight_t;
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// a viewEntity is created whenever a idRenderEntityLocal is considered for inclusion
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// in the current view, but it may still turn out to be culled.
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// viewEntity are allocated on the frame temporary stack memory
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// a viewEntity contains everything that the back end needs out of a idRenderEntityLocal,
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// which the front end may be modifying simultaniously if running in SMP mode.
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// A single entityDef can generate multiple viewEntity_t in a single frame, as when seen in a mirror
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typedef struct viewEntity_s {
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struct viewEntity_s *next;
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// back end should NOT reference the entityDef, because it can change when running SMP
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idRenderEntityLocal *entityDef;
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// for scissor clipping, local inside renderView viewport
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// scissorRect.Empty() is true if the viewEntity_t was never actually
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// seen through any portals, but was created for shadow casting.
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// a viewEntity can have a non-empty scissorRect, meaning that an area
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// that it is in is visible, and still not be visible.
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idScreenRect scissorRect;
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bool weaponDepthHack;
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float modelDepthHack;
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float modelMatrix[16]; // local coords to global coords
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float modelViewMatrix[16]; // local coords to eye coords
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} viewEntity_t;
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const int MAX_CLIP_PLANES = 1; // we may expand this to six for some subview issues
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// viewDefs are allocated on the frame temporary stack memory
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typedef struct viewDef_s {
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// specified in the call to DrawScene()
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renderView_t renderView;
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float projectionMatrix[16];
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viewEntity_t worldSpace;
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idRenderWorldLocal *renderWorld;
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float floatTime;
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idVec3 initialViewAreaOrigin;
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// Used to find the portalArea that view flooding will take place from.
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// for a normal view, the initialViewOrigin will be renderView.viewOrg,
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// but a mirror may put the projection origin outside
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// of any valid area, or in an unconnected area of the map, so the view
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// area must be based on a point just off the surface of the mirror / subview.
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// It may be possible to get a failed portal pass if the plane of the
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// mirror intersects a portal, and the initialViewAreaOrigin is on
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// a different side than the renderView.viewOrg is.
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bool isSubview; // true if this view is not the main view
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bool isMirror; // the portal is a mirror, invert the face culling
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bool isXraySubview;
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bool isEditor;
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int numClipPlanes; // mirrors will often use a single clip plane
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idPlane clipPlanes[MAX_CLIP_PLANES]; // in world space, the positive side
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// of the plane is the visible side
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idScreenRect viewport; // in real pixels and proper Y flip
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idScreenRect scissor;
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// for scissor clipping, local inside renderView viewport
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// subviews may only be rendering part of the main view
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// these are real physical pixel values, possibly scaled and offset from the
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// renderView x/y/width/height
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struct viewDef_s * superView; // never go into an infinite subview loop
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struct drawSurf_s * subviewSurface;
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// drawSurfs are the visible surfaces of the viewEntities, sorted
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// by the material sort parameter
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drawSurf_t ** drawSurfs; // we don't use an idList for this, because
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int numDrawSurfs; // it is allocated in frame temporary memory
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int maxDrawSurfs; // may be resized
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struct viewLight_s *viewLights; // chain of all viewLights effecting view
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struct viewEntity_s *viewEntitys; // chain of all viewEntities effecting view, including off screen ones casting shadows
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// we use viewEntities as a check to see if a given view consists solely
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// of 2D rendering, which we can optimize in certain ways. A 2D view will
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// not have any viewEntities
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idPlane frustum[5]; // positive sides face outward, [4] is the front clip plane
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idFrustum viewFrustum;
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int areaNum; // -1 = not in a valid area
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bool * connectedAreas;
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// An array in frame temporary memory that lists if an area can be reached without
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// crossing a closed door. This is used to avoid drawing interactions
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// when the light is behind a closed door.
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} viewDef_t;
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// complex light / surface interactions are broken up into multiple passes of a
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// simple interaction shader
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typedef struct {
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const drawSurf_t * surf;
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idImage * lightImage;
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idImage * lightFalloffImage;
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idImage * bumpImage;
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idImage * diffuseImage;
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idImage * specularImage;
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idVec4 diffuseColor; // may have a light color baked into it, will be < tr.backEndRendererMaxLight
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idVec4 specularColor; // may have a light color baked into it, will be < tr.backEndRendererMaxLight
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stageVertexColor_t vertexColor; // applies to both diffuse and specular
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int ambientLight; // use tr.ambientNormalMap instead of normalization cube map
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// (not a bool just to avoid an uninitialized memory check of the pad region by valgrind)
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// these are loaded into the vertex program
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idVec4 localLightOrigin;
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idVec4 localViewOrigin;
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idVec4 lightProjection[4]; // in local coordinates, possibly with a texture matrix baked in
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idVec4 bumpMatrix[2];
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idVec4 diffuseMatrix[2];
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idVec4 specularMatrix[2];
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} drawInteraction_t;
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/*
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=============================================================
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RENDERER BACK END COMMAND QUEUE
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TR_CMDS
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=============================================================
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*/
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typedef enum {
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RC_NOP,
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RC_DRAW_VIEW,
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RC_SET_BUFFER,
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RC_COPY_RENDER,
|
|
RC_SWAP_BUFFERS // can't just assume swap at end of list because
|
|
// of forced list submission before syncs
|
|
} renderCommand_t;
|
|
|
|
typedef struct {
|
|
renderCommand_t commandId, *next;
|
|
} emptyCommand_t;
|
|
|
|
typedef struct {
|
|
renderCommand_t commandId, *next;
|
|
GLenum buffer;
|
|
int frameCount;
|
|
} setBufferCommand_t;
|
|
|
|
typedef struct {
|
|
renderCommand_t commandId, *next;
|
|
viewDef_t *viewDef;
|
|
} drawSurfsCommand_t;
|
|
|
|
typedef struct {
|
|
renderCommand_t commandId, *next;
|
|
int x, y, imageWidth, imageHeight;
|
|
idImage *image;
|
|
int cubeFace; // when copying to a cubeMap
|
|
} copyRenderCommand_t;
|
|
|
|
|
|
//=======================================================================
|
|
|
|
// this is the inital allocation for max number of drawsurfs
|
|
// in a given view, but it will automatically grow if needed
|
|
const int INITIAL_DRAWSURFS = 0x4000;
|
|
|
|
// a request for frame memory will never fail
|
|
// (until malloc fails), but it may force the
|
|
// allocation of a new memory block that will
|
|
// be discontinuous with the existing memory
|
|
typedef struct frameMemoryBlock_s {
|
|
struct frameMemoryBlock_s *next;
|
|
int size;
|
|
int used;
|
|
int poop; // so that base is 16 byte aligned
|
|
byte base[4]; // dynamically allocated as [size]
|
|
} frameMemoryBlock_t;
|
|
|
|
// all of the information needed by the back end must be
|
|
// contained in a frameData_t. This entire structure is
|
|
// duplicated so the front and back end can run in parallel
|
|
// on an SMP machine (OBSOLETE: this capability has been removed)
|
|
typedef struct {
|
|
// one or more blocks of memory for all frame
|
|
// temporary allocations
|
|
frameMemoryBlock_t *memory;
|
|
|
|
// alloc will point somewhere into the memory chain
|
|
frameMemoryBlock_t *alloc;
|
|
|
|
srfTriangles_t * firstDeferredFreeTriSurf;
|
|
srfTriangles_t * lastDeferredFreeTriSurf;
|
|
|
|
int memoryHighwater; // max used on any frame
|
|
|
|
// the currently building command list
|
|
// commands can be inserted at the front if needed, as for required
|
|
// dynamically generated textures
|
|
emptyCommand_t *cmdHead, *cmdTail; // may be of other command type based on commandId
|
|
} frameData_t;
|
|
|
|
extern frameData_t *frameData;
|
|
|
|
//=======================================================================
|
|
|
|
void R_ClearCommandChain( void );
|
|
void R_AddDrawViewCmd( viewDef_t *parms );
|
|
|
|
void R_ReloadGuis_f( const idCmdArgs &args );
|
|
void R_ListGuis_f( const idCmdArgs &args );
|
|
|
|
void *R_GetCommandBuffer( int bytes );
|
|
|
|
// this allows a global override of all materials
|
|
bool R_GlobalShaderOverride( const idMaterial **shader );
|
|
|
|
// this does various checks before calling the idDeclSkin
|
|
const idMaterial *R_RemapShaderBySkin( const idMaterial *shader, const idDeclSkin *customSkin, const idMaterial *customShader );
|
|
|
|
|
|
//====================================================
|
|
|
|
|
|
/*
|
|
** performanceCounters_t
|
|
*/
|
|
typedef struct {
|
|
int c_sphere_cull_in, c_sphere_cull_clip, c_sphere_cull_out;
|
|
int c_box_cull_in, c_box_cull_out;
|
|
int c_createInteractions; // number of calls to idInteraction::CreateInteraction
|
|
int c_createLightTris;
|
|
int c_createShadowVolumes;
|
|
int c_generateMd5;
|
|
int c_entityDefCallbacks;
|
|
int c_alloc, c_free; // counts for R_StaticAllc/R_StaticFree
|
|
int c_visibleViewEntities;
|
|
int c_shadowViewEntities;
|
|
int c_viewLights;
|
|
int c_numViews; // number of total views rendered
|
|
int c_deformedSurfaces; // idMD5Mesh::GenerateSurface
|
|
int c_deformedVerts; // idMD5Mesh::GenerateSurface
|
|
int c_deformedIndexes; // idMD5Mesh::GenerateSurface
|
|
int c_tangentIndexes; // R_DeriveTangents()
|
|
int c_entityUpdates, c_lightUpdates, c_entityReferences, c_lightReferences;
|
|
int c_guiSurfs;
|
|
int frontEndMsec; // sum of time in all RE_RenderScene's in a frame
|
|
} performanceCounters_t;
|
|
|
|
|
|
typedef struct {
|
|
int current2DMap;
|
|
int current3DMap;
|
|
int currentCubeMap;
|
|
int texEnv;
|
|
textureType_t textureType;
|
|
} tmu_t;
|
|
|
|
const int MAX_MULTITEXTURE_UNITS = 8;
|
|
typedef struct {
|
|
tmu_t tmu[MAX_MULTITEXTURE_UNITS];
|
|
int currenttmu;
|
|
|
|
int faceCulling;
|
|
int glStateBits;
|
|
bool forceGlState; // the next GL_State will ignore glStateBits and set everything
|
|
} glstate_t;
|
|
|
|
|
|
typedef struct {
|
|
int c_surfaces;
|
|
int c_shaders;
|
|
int c_vertexes;
|
|
int c_indexes; // one set per pass
|
|
int c_totalIndexes; // counting all passes
|
|
|
|
int c_drawElements;
|
|
int c_drawIndexes;
|
|
int c_drawVertexes;
|
|
int c_drawRefIndexes;
|
|
int c_drawRefVertexes;
|
|
|
|
int c_shadowElements;
|
|
int c_shadowIndexes;
|
|
int c_shadowVertexes;
|
|
|
|
int c_vboIndexes;
|
|
float c_overDraw;
|
|
|
|
float maxLightValue; // for light scale
|
|
int msec; // total msec for backend run
|
|
} backEndCounters_t;
|
|
|
|
// all state modified by the back end is separated
|
|
// from the front end state
|
|
typedef struct {
|
|
int frameCount; // used to track all images used in a frame
|
|
const viewDef_t * viewDef;
|
|
backEndCounters_t pc;
|
|
|
|
const viewEntity_t *currentSpace; // for detecting when a matrix must change
|
|
idScreenRect currentScissor;
|
|
// for scissor clipping, local inside renderView viewport
|
|
|
|
viewLight_t * vLight;
|
|
int depthFunc; // GLS_DEPTHFUNC_EQUAL, or GLS_DEPTHFUNC_LESS for translucent
|
|
float lightTextureMatrix[16]; // only if lightStage->texture.hasMatrix
|
|
float lightColor[4]; // evaluation of current light's color stage
|
|
|
|
float lightScale; // Every light color calaculation will be multiplied by this,
|
|
// which will guarantee that the result is < tr.backEndRendererMaxLight
|
|
// A card with high dynamic range will have this set to 1.0
|
|
float overBright; // The amount that all light interactions must be multiplied by
|
|
// with post processing to get the desired total light level.
|
|
// A high dynamic range card will have this set to 1.0.
|
|
|
|
bool currentRenderCopied; // true if any material has already referenced _currentRender
|
|
|
|
// our OpenGL state deltas
|
|
glstate_t glState;
|
|
|
|
int c_copyFrameBuffer;
|
|
} backEndState_t;
|
|
|
|
|
|
const int MAX_GUI_SURFACES = 1024; // default size of the drawSurfs list for guis, will
|
|
// be automatically expanded as needed
|
|
|
|
typedef enum {
|
|
BE_ARB2,
|
|
BE_BAD
|
|
} backEndName_t;
|
|
|
|
typedef struct {
|
|
int x, y, width, height; // these are in physical, OpenGL Y-at-bottom pixels
|
|
} renderCrop_t;
|
|
static const int MAX_RENDER_CROPS = 8;
|
|
|
|
/*
|
|
** Most renderer globals are defined here.
|
|
** backend functions should never modify any of these fields,
|
|
** but may read fields that aren't dynamically modified
|
|
** by the frontend.
|
|
*/
|
|
class idRenderSystemLocal : public idRenderSystem {
|
|
public:
|
|
// external functions
|
|
virtual void Init( void );
|
|
virtual void Shutdown( void );
|
|
virtual void InitOpenGL( void );
|
|
virtual void ShutdownOpenGL( void );
|
|
virtual bool IsOpenGLRunning( void ) const;
|
|
virtual bool IsFullScreen( void ) const;
|
|
virtual int GetScreenWidth( void ) const;
|
|
virtual int GetScreenHeight( void ) const;
|
|
virtual idRenderWorld * AllocRenderWorld( void );
|
|
virtual void FreeRenderWorld( idRenderWorld *rw );
|
|
virtual void BeginLevelLoad( void );
|
|
virtual void EndLevelLoad( void );
|
|
virtual bool RegisterFont( const char *fontName, fontInfoEx_t &font );
|
|
virtual void SetColor( const idVec4 &rgba );
|
|
virtual void SetColor4( float r, float g, float b, float a );
|
|
virtual void DrawStretchPic ( const idDrawVert *verts, const glIndex_t *indexes, int vertCount, int indexCount, const idMaterial *material,
|
|
bool clip = true, float x = 0.0f, float y = 0.0f, float w = 640.0f, float h = 0.0f );
|
|
virtual void DrawStretchPic ( float x, float y, float w, float h, float s1, float t1, float s2, float t2, const idMaterial *material );
|
|
|
|
virtual void DrawStretchTri ( idVec2 p1, idVec2 p2, idVec2 p3, idVec2 t1, idVec2 t2, idVec2 t3, const idMaterial *material );
|
|
virtual void GlobalToNormalizedDeviceCoordinates( const idVec3 &global, idVec3 &ndc );
|
|
virtual void GetGLSettings( int& width, int& height );
|
|
virtual void PrintMemInfo( MemInfo_t *mi );
|
|
|
|
virtual void DrawSmallChar( int x, int y, int ch, const idMaterial *material );
|
|
virtual void DrawSmallStringExt( int x, int y, const char *string, const idVec4 &setColor, bool forceColor, const idMaterial *material );
|
|
virtual void DrawBigChar( int x, int y, int ch, const idMaterial *material );
|
|
virtual void DrawBigStringExt( int x, int y, const char *string, const idVec4 &setColor, bool forceColor, const idMaterial *material );
|
|
virtual void WriteDemoPics();
|
|
virtual void DrawDemoPics();
|
|
virtual void BeginFrame( int windowWidth, int windowHeight );
|
|
virtual void EndFrame( int *frontEndMsec, int *backEndMsec );
|
|
virtual void TakeScreenshot( int width, int height, const char *fileName, int downSample, renderView_t *ref );
|
|
virtual void CropRenderSize( int width, int height, bool makePowerOfTwo = false, bool forceDimensions = false );
|
|
virtual void CaptureRenderToImage( const char *imageName );
|
|
virtual void CaptureRenderToFile( const char *fileName, bool fixAlpha );
|
|
virtual void UnCrop();
|
|
virtual bool UploadImage( const char *imageName, const byte *data, int width, int height );
|
|
|
|
public:
|
|
// internal functions
|
|
idRenderSystemLocal( void );
|
|
~idRenderSystemLocal( void );
|
|
|
|
void Clear( void );
|
|
void SetBackEndRenderer(); // sets tr.backEndRenderer based on cvars
|
|
void RenderViewToViewport( const renderView_t *renderView, idScreenRect *viewport );
|
|
|
|
public:
|
|
// renderer globals
|
|
bool registered; // cleared at shutdown, set at InitOpenGL
|
|
|
|
bool takingScreenshot;
|
|
|
|
int frameCount; // incremented every frame
|
|
int viewCount; // incremented every view (twice a scene if subviewed)
|
|
// and every R_MarkFragments call
|
|
|
|
int staticAllocCount; // running total of bytes allocated
|
|
|
|
float frameShaderTime; // shader time for all non-world 2D rendering
|
|
|
|
int viewportOffset[2]; // for doing larger-than-window tiled renderings
|
|
int tiledViewport[2];
|
|
|
|
// determines which back end to use, and if vertex programs are in use
|
|
backEndName_t backEndRenderer;
|
|
bool backEndRendererHasVertexPrograms;
|
|
float backEndRendererMaxLight; // 1.0 for standard, unlimited for floats
|
|
// determines how much overbrighting needs
|
|
// to be done post-process
|
|
|
|
idVec4 ambientLightVector; // used for "ambient bump mapping"
|
|
|
|
float sortOffset; // for determinist sorting of equal sort materials
|
|
|
|
idList<idRenderWorldLocal*>worlds;
|
|
|
|
idRenderWorldLocal * primaryWorld;
|
|
renderView_t primaryRenderView;
|
|
viewDef_t * primaryView;
|
|
// many console commands need to know which world they should operate on
|
|
|
|
const idMaterial * defaultMaterial;
|
|
idImage * testImage;
|
|
idCinematic * testVideo;
|
|
float testVideoStartTime;
|
|
|
|
idImage * ambientCubeImage; // hack for testing dependent ambient lighting
|
|
|
|
viewDef_t * viewDef;
|
|
|
|
performanceCounters_t pc; // performance counters
|
|
|
|
drawSurfsCommand_t lockSurfacesCmd; // use this when r_lockSurfaces = 1
|
|
//renderView_t lockSurfacesRenderView;
|
|
viewDef_t lockSurfacesViewDef; // of locked position/view
|
|
viewDef_t lockSurfacesRealViewDef; // of actual player position
|
|
|
|
viewEntity_t identitySpace; // can use if we don't know viewDef->worldSpace is valid
|
|
int stencilIncr, stencilDecr; // GL_INCR / INCR_WRAP_EXT, GL_DECR / GL_DECR_EXT
|
|
|
|
renderCrop_t renderCrops[MAX_RENDER_CROPS];
|
|
int currentRenderCrop;
|
|
|
|
// GUI drawing variables for surface creation
|
|
int guiRecursionLevel; // to prevent infinite overruns
|
|
class idGuiModel * guiModel;
|
|
class idGuiModel * demoGuiModel;
|
|
|
|
// DG: remember the original glConfig.vidWidth/Height values that get overwritten in BeginFrame()
|
|
// so they can be reset in EndFrame() (Editors tend to mess up the viewport by using BeginFrame())
|
|
int origWidth;
|
|
int origHeight;
|
|
};
|
|
|
|
extern backEndState_t backEnd;
|
|
extern idRenderSystemLocal tr;
|
|
extern glconfig_t glConfig; // outside of TR since it shouldn't be cleared during ref re-init
|
|
|
|
|
|
//
|
|
// cvars
|
|
//
|
|
extern idCVar r_mode; // video mode number
|
|
extern idCVar r_displayRefresh; // optional display refresh rate option for vid mode
|
|
extern idCVar r_fullscreen; // 0 = windowed, 1 = full screen
|
|
extern idCVar r_fullscreenDesktop; // 0: 'real' fullscreen mode 1: keep resolution 'desktop' fullscreen mode
|
|
extern idCVar r_multiSamples; // number of antialiasing samples
|
|
|
|
extern idCVar r_ignore; // used for random debugging without defining new vars
|
|
extern idCVar r_ignore2; // used for random debugging without defining new vars
|
|
extern idCVar r_znear; // near Z clip plane
|
|
|
|
extern idCVar r_finish; // force a call to glFinish() every frame
|
|
extern idCVar r_frontBuffer; // draw to front buffer for debugging
|
|
extern idCVar r_swapInterval; // changes the GL swap interval
|
|
extern idCVar r_offsetFactor; // polygon offset parameter
|
|
extern idCVar r_offsetUnits; // polygon offset parameter
|
|
extern idCVar r_singleTriangle; // only draw a single triangle per primitive
|
|
extern idCVar r_clear; // force screen clear every frame
|
|
extern idCVar r_shadows; // enable shadows
|
|
extern idCVar r_subviewOnly; // 1 = don't render main view, allowing subviews to be debugged
|
|
extern idCVar r_lightScale; // all light intensities are multiplied by this, which is normally 2
|
|
extern idCVar r_flareSize; // scale the flare deforms from the material def
|
|
|
|
extern idCVar r_gamma; // changes gamma tables
|
|
extern idCVar r_brightness; // changes gamma tables
|
|
extern idCVar r_gammaInShader; // set gamma+brightness in shader instead of modifying system gamma tables
|
|
|
|
extern idCVar r_renderer; // arb2, etc
|
|
|
|
extern idCVar r_checkBounds; // compare all surface bounds with precalculated ones
|
|
|
|
extern idCVar r_useLightPortalFlow; // 1 = do a more precise area reference determination
|
|
extern idCVar r_useShadowSurfaceScissor;// 1 = scissor shadows by the scissor rect of the interaction surfaces
|
|
extern idCVar r_useConstantMaterials; // 1 = use pre-calculated material registers if possible
|
|
extern idCVar r_useInteractionTable; // create a full entityDefs * lightDefs table to make finding interactions faster
|
|
extern idCVar r_useNodeCommonChildren; // stop pushing reference bounds early when possible
|
|
extern idCVar r_useSilRemap; // 1 = consider verts with the same XYZ, but different ST the same for shadows
|
|
extern idCVar r_useCulling; // 0 = none, 1 = sphere, 2 = sphere + box
|
|
extern idCVar r_useLightCulling; // 0 = none, 1 = box, 2 = exact clip of polyhedron faces
|
|
extern idCVar r_useLightScissors; // 1 = use custom scissor rectangle for each light
|
|
extern idCVar r_useClippedLightScissors;// 0 = full screen when near clipped, 1 = exact when near clipped, 2 = exact always
|
|
extern idCVar r_useEntityCulling; // 0 = none, 1 = box
|
|
extern idCVar r_useEntityScissors; // 1 = use custom scissor rectangle for each entity
|
|
extern idCVar r_useInteractionCulling; // 1 = cull interactions
|
|
extern idCVar r_useInteractionScissors; // 1 = use a custom scissor rectangle for each interaction
|
|
extern idCVar r_useFrustumFarDistance; // if != 0 force the view frustum far distance to this distance
|
|
extern idCVar r_useShadowCulling; // try to cull shadows from partially visible lights
|
|
extern idCVar r_usePreciseTriangleInteractions; // 1 = do winding clipping to determine if each ambiguous tri should be lit
|
|
extern idCVar r_useTurboShadow; // 1 = use the infinite projection with W technique for dynamic shadows
|
|
extern idCVar r_useExternalShadows; // 1 = skip drawing caps when outside the light volume
|
|
extern idCVar r_useOptimizedShadows; // 1 = use the dmap generated static shadow volumes
|
|
extern idCVar r_useShadowVertexProgram; // 1 = do the shadow projection in the vertex program on capable cards
|
|
extern idCVar r_useShadowProjectedCull; // 1 = discard triangles outside light volume before shadowing
|
|
extern idCVar r_useDeferredTangents; // 1 = don't always calc tangents after deform
|
|
extern idCVar r_useCachedDynamicModels; // 1 = cache snapshots of dynamic models
|
|
extern idCVar r_useTwoSidedStencil; // 1 = do stencil shadows in one pass with different ops on each side
|
|
extern idCVar r_useInfiniteFarZ; // 1 = use the no-far-clip-plane trick
|
|
extern idCVar r_useScissor; // 1 = scissor clip as portals and lights are processed
|
|
extern idCVar r_usePortals; // 1 = use portals to perform area culling, otherwise draw everything
|
|
extern idCVar r_useStateCaching; // avoid redundant state changes in GL_*() calls
|
|
extern idCVar r_useCombinerDisplayLists;// if 1, put all nvidia register combiner programming in display lists
|
|
extern idCVar r_useVertexBuffers; // if 0, don't use ARB_vertex_buffer_object for vertexes
|
|
extern idCVar r_useIndexBuffers; // if 0, don't use ARB_vertex_buffer_object for indexes
|
|
extern idCVar r_useEntityCallbacks; // if 0, issue the callback immediately at update time, rather than defering
|
|
extern idCVar r_lightAllBackFaces; // light all the back faces, even when they would be shadowed
|
|
extern idCVar r_useDepthBoundsTest; // use depth bounds test to reduce shadow fill
|
|
|
|
extern idCVar r_skipPostProcess; // skip all post-process renderings
|
|
extern idCVar r_skipSuppress; // ignore the per-view suppressions
|
|
extern idCVar r_skipInteractions; // skip all light/surface interaction drawing
|
|
extern idCVar r_skipFrontEnd; // bypasses all front end work, but 2D gui rendering still draws
|
|
extern idCVar r_skipBackEnd; // don't draw anything
|
|
extern idCVar r_skipCopyTexture; // do all rendering, but don't actually copyTexSubImage2D
|
|
extern idCVar r_skipRender; // skip 3D rendering, but pass 2D
|
|
extern idCVar r_skipRenderContext; // NULL the rendering context during backend 3D rendering
|
|
extern idCVar r_skipTranslucent; // skip the translucent interaction rendering
|
|
extern idCVar r_skipAmbient; // bypasses all non-interaction drawing
|
|
extern idCVar r_skipNewAmbient; // bypasses all vertex/fragment program ambients
|
|
extern idCVar r_skipBlendLights; // skip all blend lights
|
|
extern idCVar r_skipFogLights; // skip all fog lights
|
|
extern idCVar r_skipSubviews; // 1 = don't render any mirrors / cameras / etc
|
|
extern idCVar r_skipGuiShaders; // 1 = don't render any gui elements on surfaces
|
|
extern idCVar r_skipParticles; // 1 = don't render any particles
|
|
extern idCVar r_skipUpdates; // 1 = don't accept any entity or light updates, making everything static
|
|
extern idCVar r_skipDeforms; // leave all deform materials in their original state
|
|
extern idCVar r_skipDynamicTextures; // don't dynamically create textures
|
|
extern idCVar r_skipLightScale; // don't do any post-interaction light scaling, makes things dim on low-dynamic range cards
|
|
extern idCVar r_skipBump; // uses a flat surface instead of the bump map
|
|
extern idCVar r_skipSpecular; // use black for specular
|
|
extern idCVar r_skipDiffuse; // use black for diffuse
|
|
extern idCVar r_skipOverlays; // skip overlay surfaces
|
|
extern idCVar r_skipROQ;
|
|
|
|
extern idCVar r_ignoreGLErrors;
|
|
|
|
extern idCVar r_forceLoadImages; // draw all images to screen after registration
|
|
extern idCVar r_demonstrateBug; // used during development to show IHV's their problems
|
|
extern idCVar r_screenFraction; // for testing fill rate, the resolution of the entire screen can be changed
|
|
|
|
extern idCVar r_showUnsmoothedTangents; // highlight geometry rendered with unsmoothed tangents
|
|
extern idCVar r_showSilhouette; // highlight edges that are casting shadow planes
|
|
extern idCVar r_showVertexColor; // draws all triangles with the solid vertex color
|
|
extern idCVar r_showUpdates; // report entity and light updates and ref counts
|
|
extern idCVar r_showDemo; // report reads and writes to the demo file
|
|
extern idCVar r_showDynamic; // report stats on dynamic surface generation
|
|
extern idCVar r_showLightScale; // report the scale factor applied to drawing for overbrights
|
|
extern idCVar r_showIntensity; // draw the screen colors based on intensity, red = 0, green = 128, blue = 255
|
|
extern idCVar r_showDefs; // report the number of modeDefs and lightDefs in view
|
|
extern idCVar r_showTrace; // show the intersection of an eye trace with the world
|
|
extern idCVar r_showSmp; // show which end (front or back) is blocking
|
|
extern idCVar r_showDepth; // display the contents of the depth buffer and the depth range
|
|
extern idCVar r_showImages; // draw all images to screen instead of rendering
|
|
extern idCVar r_showTris; // enables wireframe rendering of the world
|
|
extern idCVar r_showSurfaceInfo; // show surface material name under crosshair
|
|
extern idCVar r_showNormals; // draws wireframe normals
|
|
extern idCVar r_showEdges; // draw the sil edges
|
|
extern idCVar r_showViewEntitys; // displays the bounding boxes of all view models and optionally the index
|
|
extern idCVar r_showTexturePolarity; // shade triangles by texture area polarity
|
|
extern idCVar r_showTangentSpace; // shade triangles by tangent space
|
|
extern idCVar r_showDominantTri; // draw lines from vertexes to center of dominant triangles
|
|
extern idCVar r_showTextureVectors; // draw each triangles texture (tangent) vectors
|
|
extern idCVar r_showLights; // 1 = print light info, 2 = also draw volumes
|
|
extern idCVar r_showLightCount; // colors surfaces based on light count
|
|
extern idCVar r_showShadows; // visualize the stencil shadow volumes
|
|
extern idCVar r_showShadowCount; // colors screen based on shadow volume depth complexity
|
|
extern idCVar r_showLightScissors; // show light scissor rectangles
|
|
extern idCVar r_showEntityScissors; // show entity scissor rectangles
|
|
extern idCVar r_showInteractionFrustums;// show a frustum for each interaction
|
|
extern idCVar r_showInteractionScissors;// show screen rectangle which contains the interaction frustum
|
|
extern idCVar r_showMemory; // print frame memory utilization
|
|
extern idCVar r_showCull; // report sphere and box culling stats
|
|
extern idCVar r_showInteractions; // report interaction generation activity
|
|
extern idCVar r_showSurfaces; // report surface/light/shadow counts
|
|
extern idCVar r_showPrimitives; // report vertex/index/draw counts
|
|
extern idCVar r_showPortals; // draw portal outlines in color based on passed / not passed
|
|
extern idCVar r_showAlloc; // report alloc/free counts
|
|
extern idCVar r_showSkel; // draw the skeleton when model animates
|
|
extern idCVar r_showOverDraw; // show overdraw
|
|
extern idCVar r_jointNameScale; // size of joint names when r_showskel is set to 1
|
|
extern idCVar r_jointNameOffset; // offset of joint names when r_showskel is set to 1
|
|
|
|
extern idCVar r_testGamma; // draw a grid pattern to test gamma levels
|
|
extern idCVar r_testStepGamma; // draw a grid pattern to test gamma levels
|
|
extern idCVar r_testGammaBias; // draw a grid pattern to test gamma levels
|
|
|
|
extern idCVar r_testARBProgram; // experiment with vertex/fragment programs
|
|
|
|
extern idCVar r_singleLight; // suppress all but one light
|
|
extern idCVar r_singleEntity; // suppress all but one entity
|
|
extern idCVar r_singleArea; // only draw the portal area the view is actually in
|
|
extern idCVar r_singleSurface; // suppress all but one surface on each entity
|
|
extern idCVar r_shadowPolygonOffset; // bias value added to depth test for stencil shadow drawing
|
|
extern idCVar r_shadowPolygonFactor; // scale value for stencil shadow drawing
|
|
|
|
extern idCVar r_jitter; // randomly subpixel jitter the projection matrix
|
|
extern idCVar r_lightSourceRadius; // for soft-shadow sampling
|
|
extern idCVar r_lockSurfaces;
|
|
extern idCVar r_orderIndexes; // perform index reorganization to optimize vertex use
|
|
|
|
extern idCVar r_debugLineDepthTest; // perform depth test on debug lines
|
|
extern idCVar r_debugLineWidth; // width of debug lines
|
|
extern idCVar r_debugArrowStep; // step size of arrow cone line rotation in degrees
|
|
extern idCVar r_debugPolygonFilled;
|
|
|
|
extern idCVar r_materialOverride; // override all materials
|
|
|
|
extern idCVar r_debugRenderToTexture;
|
|
|
|
/*
|
|
====================================================================
|
|
|
|
GL wrapper/helper functions
|
|
|
|
====================================================================
|
|
*/
|
|
|
|
void GL_SelectTexture( int unit );
|
|
void GL_CheckErrors( void );
|
|
void GL_ClearStateDelta( void );
|
|
void GL_State( int stateVector );
|
|
void GL_TexEnv( int env );
|
|
void GL_Cull( int cullType );
|
|
|
|
const int GLS_SRCBLEND_ZERO = 0x00000001;
|
|
const int GLS_SRCBLEND_ONE = 0x0;
|
|
const int GLS_SRCBLEND_DST_COLOR = 0x00000003;
|
|
const int GLS_SRCBLEND_ONE_MINUS_DST_COLOR = 0x00000004;
|
|
const int GLS_SRCBLEND_SRC_ALPHA = 0x00000005;
|
|
const int GLS_SRCBLEND_ONE_MINUS_SRC_ALPHA = 0x00000006;
|
|
const int GLS_SRCBLEND_DST_ALPHA = 0x00000007;
|
|
const int GLS_SRCBLEND_ONE_MINUS_DST_ALPHA = 0x00000008;
|
|
const int GLS_SRCBLEND_ALPHA_SATURATE = 0x00000009;
|
|
const int GLS_SRCBLEND_BITS = 0x0000000f;
|
|
|
|
const int GLS_DSTBLEND_ZERO = 0x0;
|
|
const int GLS_DSTBLEND_ONE = 0x00000020;
|
|
const int GLS_DSTBLEND_SRC_COLOR = 0x00000030;
|
|
const int GLS_DSTBLEND_ONE_MINUS_SRC_COLOR = 0x00000040;
|
|
const int GLS_DSTBLEND_SRC_ALPHA = 0x00000050;
|
|
const int GLS_DSTBLEND_ONE_MINUS_SRC_ALPHA = 0x00000060;
|
|
const int GLS_DSTBLEND_DST_ALPHA = 0x00000070;
|
|
const int GLS_DSTBLEND_ONE_MINUS_DST_ALPHA = 0x00000080;
|
|
const int GLS_DSTBLEND_BITS = 0x000000f0;
|
|
|
|
|
|
// these masks are the inverse, meaning when set the glColorMask value will be 0,
|
|
// preventing that channel from being written
|
|
const int GLS_DEPTHMASK = 0x00000100;
|
|
const int GLS_REDMASK = 0x00000200;
|
|
const int GLS_GREENMASK = 0x00000400;
|
|
const int GLS_BLUEMASK = 0x00000800;
|
|
const int GLS_ALPHAMASK = 0x00001000;
|
|
const int GLS_COLORMASK = (GLS_REDMASK|GLS_GREENMASK|GLS_BLUEMASK);
|
|
|
|
const int GLS_POLYMODE_LINE = 0x00002000;
|
|
|
|
const int GLS_DEPTHFUNC_ALWAYS = 0x00010000;
|
|
const int GLS_DEPTHFUNC_EQUAL = 0x00020000;
|
|
const int GLS_DEPTHFUNC_LESS = 0x0;
|
|
|
|
const int GLS_ATEST_EQ_255 = 0x10000000;
|
|
const int GLS_ATEST_LT_128 = 0x20000000;
|
|
const int GLS_ATEST_GE_128 = 0x40000000;
|
|
const int GLS_ATEST_BITS = 0x70000000;
|
|
|
|
const int GLS_DEFAULT = GLS_DEPTHFUNC_ALWAYS;
|
|
|
|
void R_Init( void );
|
|
void R_InitOpenGL( void );
|
|
|
|
void R_DoneFreeType( void );
|
|
|
|
void R_SetColorMappings( void );
|
|
|
|
void R_ScreenShot_f( const idCmdArgs &args );
|
|
void R_StencilShot( void );
|
|
|
|
bool R_CheckExtension( const char *name );
|
|
|
|
|
|
/*
|
|
====================================================================
|
|
|
|
IMPLEMENTATION SPECIFIC FUNCTIONS
|
|
|
|
====================================================================
|
|
*/
|
|
|
|
typedef struct {
|
|
int width;
|
|
int height;
|
|
bool fullScreen;
|
|
bool stereo;
|
|
int displayHz;
|
|
int multiSamples;
|
|
} glimpParms_t;
|
|
|
|
bool GLimp_Init( glimpParms_t parms );
|
|
// If the desired mode can't be set satisfactorily, false will be returned.
|
|
// The renderer will then reset the glimpParms to "safe mode" of 640x480
|
|
// fullscreen and try again. If that also fails, the error will be fatal.
|
|
|
|
bool GLimp_SetScreenParms( glimpParms_t parms );
|
|
// will set up gl up with the new parms
|
|
|
|
void GLimp_Shutdown( void );
|
|
// Destroys the rendering context, closes the window, resets the resolution,
|
|
// and resets the gamma ramps.
|
|
|
|
void GLimp_SwapBuffers( void );
|
|
// Calls the system specific swapbuffers routine, and may also perform
|
|
// other system specific cvar checks that happen every frame.
|
|
// This will not be called if 'r_drawBuffer GL_FRONT'
|
|
|
|
void GLimp_SetGamma( unsigned short red[256],
|
|
unsigned short green[256],
|
|
unsigned short blue[256] );
|
|
// Sets the hardware gamma ramps for gamma and brightness adjustment.
|
|
// These are now taken as 16 bit values, so we can take full advantage
|
|
// of dacs with >8 bits of precision
|
|
|
|
void GLimp_ResetGamma();
|
|
// resets the gamma to what it was at startup
|
|
|
|
// Returns false if the system only has a single processor
|
|
|
|
void GLimp_ActivateContext( void );
|
|
void GLimp_DeactivateContext( void );
|
|
// These are used for managing SMP handoffs of the OpenGL context
|
|
// between threads, and as a performance tunining aid. Setting
|
|
// 'r_skipRenderContext 1' will call GLimp_DeactivateContext() before
|
|
// the 3D rendering code, and GLimp_ActivateContext() afterwards. On
|
|
// most OpenGL implementations, this will result in all OpenGL calls
|
|
// being immediate returns, which lets us guage how much time is
|
|
// being spent inside OpenGL.
|
|
|
|
const int GRAB_GRABMOUSE = (1 << 0);
|
|
const int GRAB_HIDECURSOR = (1 << 1);
|
|
const int GRAB_RELATIVEMOUSE = (1 << 2);
|
|
|
|
void GLimp_GrabInput(int flags);
|
|
/*
|
|
====================================================================
|
|
|
|
MAIN
|
|
|
|
====================================================================
|
|
*/
|
|
|
|
void R_RenderView( viewDef_t *parms );
|
|
|
|
// performs radius cull first, then corner cull
|
|
bool R_CullLocalBox( const idBounds &bounds, const float modelMatrix[16], int numPlanes, const idPlane *planes );
|
|
bool R_RadiusCullLocalBox( const idBounds &bounds, const float modelMatrix[16], int numPlanes, const idPlane *planes );
|
|
bool R_CornerCullLocalBox( const idBounds &bounds, const float modelMatrix[16], int numPlanes, const idPlane *planes );
|
|
|
|
void R_AxisToModelMatrix( const idMat3 &axis, const idVec3 &origin, float modelMatrix[16] );
|
|
|
|
// note that many of these assume a normalized matrix, and will not work with scaled axis
|
|
void R_GlobalPointToLocal( const float modelMatrix[16], const idVec3 &in, idVec3 &out );
|
|
void R_GlobalVectorToLocal( const float modelMatrix[16], const idVec3 &in, idVec3 &out );
|
|
void R_GlobalPlaneToLocal( const float modelMatrix[16], const idPlane &in, idPlane &out );
|
|
void R_PointTimesMatrix( const float modelMatrix[16], const idVec4 &in, idVec4 &out );
|
|
void R_LocalPointToGlobal( const float modelMatrix[16], const idVec3 &in, idVec3 &out );
|
|
void R_LocalVectorToGlobal( const float modelMatrix[16], const idVec3 &in, idVec3 &out );
|
|
void R_LocalPlaneToGlobal( const float modelMatrix[16], const idPlane &in, idPlane &out );
|
|
void R_TransformEyeZToWin( float src_z, const float *projectionMatrix, float &dst_z );
|
|
|
|
void R_GlobalToNormalizedDeviceCoordinates( const idVec3 &global, idVec3 &ndc );
|
|
|
|
void R_TransformModelToClip( const idVec3 &src, const float *modelMatrix, const float *projectionMatrix, idPlane &eye, idPlane &dst );
|
|
|
|
void R_TransformClipToDevice( const idPlane &clip, const viewDef_t *view, idVec3 &normalized );
|
|
|
|
void R_TransposeGLMatrix( const float in[16], float out[16] );
|
|
|
|
void R_SetViewMatrix( viewDef_t *viewDef );
|
|
|
|
void myGlMultMatrix( const float *a, const float *b, float *out );
|
|
|
|
/*
|
|
============================================================
|
|
|
|
LIGHT
|
|
|
|
============================================================
|
|
*/
|
|
|
|
void R_ListRenderLightDefs_f( const idCmdArgs &args );
|
|
void R_ListRenderEntityDefs_f( const idCmdArgs &args );
|
|
|
|
bool R_IssueEntityDefCallback( idRenderEntityLocal *def );
|
|
idRenderModel *R_EntityDefDynamicModel( idRenderEntityLocal *def );
|
|
|
|
viewEntity_t *R_SetEntityDefViewEntity( idRenderEntityLocal *def );
|
|
viewLight_t *R_SetLightDefViewLight( idRenderLightLocal *def );
|
|
|
|
void R_AddDrawSurf( const srfTriangles_t *tri, const viewEntity_t *space, const renderEntity_t *renderEntity,
|
|
const idMaterial *shader, const idScreenRect &scissor );
|
|
|
|
void R_LinkLightSurf( const drawSurf_t **link, const srfTriangles_t *tri, const viewEntity_t *space,
|
|
const idRenderLightLocal *light, const idMaterial *shader, const idScreenRect &scissor, bool viewInsideShadow );
|
|
|
|
bool R_CreateAmbientCache( srfTriangles_t *tri, bool needsLighting );
|
|
bool R_CreateLightingCache( const idRenderEntityLocal *ent, const idRenderLightLocal *light, srfTriangles_t *tri );
|
|
void R_CreatePrivateShadowCache( srfTriangles_t *tri );
|
|
void R_CreateVertexProgramShadowCache( srfTriangles_t *tri );
|
|
|
|
/*
|
|
============================================================
|
|
|
|
LIGHTRUN
|
|
|
|
============================================================
|
|
*/
|
|
|
|
void R_RegenerateWorld_f( const idCmdArgs &args );
|
|
|
|
void R_ModulateLights_f( const idCmdArgs &args );
|
|
|
|
void R_SetLightProject( idPlane lightProject[4], const idVec3 origin, const idVec3 targetPoint,
|
|
const idVec3 rightVector, const idVec3 upVector, const idVec3 start, const idVec3 stop );
|
|
|
|
void R_AddLightSurfaces( void );
|
|
void R_AddModelSurfaces( void );
|
|
void R_RemoveUnecessaryViewLights( void );
|
|
|
|
void R_FreeDerivedData( void );
|
|
void R_ReCreateWorldReferences( void );
|
|
|
|
void R_CreateEntityRefs( idRenderEntityLocal *def );
|
|
void R_CreateLightRefs( idRenderLightLocal *light );
|
|
|
|
void R_DeriveLightData( idRenderLightLocal *light );
|
|
void R_FreeLightDefDerivedData( idRenderLightLocal *light );
|
|
void R_CheckForEntityDefsUsingModel( idRenderModel *model );
|
|
|
|
void R_ClearEntityDefDynamicModel( idRenderEntityLocal *def );
|
|
void R_FreeEntityDefDerivedData( idRenderEntityLocal *def, bool keepDecals, bool keepCachedDynamicModel );
|
|
void R_FreeEntityDefCachedDynamicModel( idRenderEntityLocal *def );
|
|
void R_FreeEntityDefDecals( idRenderEntityLocal *def );
|
|
void R_FreeEntityDefOverlay( idRenderEntityLocal *def );
|
|
void R_FreeEntityDefFadedDecals( idRenderEntityLocal *def, int time );
|
|
|
|
void R_CreateLightDefFogPortals( idRenderLightLocal *ldef );
|
|
|
|
/*
|
|
============================================================
|
|
|
|
POLYTOPE
|
|
|
|
============================================================
|
|
*/
|
|
|
|
srfTriangles_t *R_PolytopeSurface( int numPlanes, const idPlane *planes, idWinding **windings );
|
|
|
|
/*
|
|
============================================================
|
|
|
|
RENDER
|
|
|
|
============================================================
|
|
*/
|
|
|
|
void RB_EnterWeaponDepthHack();
|
|
void RB_EnterModelDepthHack( float depth );
|
|
void RB_LeaveDepthHack();
|
|
void RB_DrawElementsImmediate( const srfTriangles_t *tri );
|
|
void RB_RenderTriangleSurface( const srfTriangles_t *tri );
|
|
void RB_T_RenderTriangleSurface( const drawSurf_t *surf );
|
|
void RB_RenderDrawSurfListWithFunction( drawSurf_t **drawSurfs, int numDrawSurfs,
|
|
void (*triFunc_)( const drawSurf_t *) );
|
|
void RB_RenderDrawSurfChainWithFunction( const drawSurf_t *drawSurfs,
|
|
void (*triFunc_)( const drawSurf_t *) );
|
|
void RB_DrawShaderPasses( drawSurf_t **drawSurfs, int numDrawSurfs );
|
|
void RB_LoadShaderTextureMatrix( const float *shaderRegisters, const textureStage_t *texture );
|
|
void RB_GetShaderTextureMatrix( const float *shaderRegisters, const textureStage_t *texture, float matrix[16] );
|
|
void RB_CreateSingleDrawInteractions( const drawSurf_t *surf, void (*DrawInteraction)(const drawInteraction_t *) );
|
|
|
|
const shaderStage_t *RB_SetLightTexture( const idRenderLightLocal *light );
|
|
|
|
void RB_DrawView( const void *data );
|
|
|
|
void RB_DetermineLightScale( void );
|
|
void RB_STD_LightScale( void );
|
|
void RB_BeginDrawingView (void);
|
|
|
|
/*
|
|
============================================================
|
|
|
|
DRAW_STANDARD
|
|
|
|
============================================================
|
|
*/
|
|
|
|
void RB_DrawElementsWithCounters( const srfTriangles_t *tri );
|
|
void RB_DrawShadowElementsWithCounters( const srfTriangles_t *tri, int numIndexes );
|
|
void RB_STD_FillDepthBuffer( drawSurf_t **drawSurfs, int numDrawSurfs );
|
|
void RB_BindVariableStageImage( const textureStage_t *texture, const float *shaderRegisters );
|
|
void RB_BindStageTexture( const float *shaderRegisters, const textureStage_t *texture, const drawSurf_t *surf );
|
|
void RB_FinishStageTexture( const textureStage_t *texture, const drawSurf_t *surf );
|
|
void RB_StencilShadowPass( const drawSurf_t *drawSurfs );
|
|
void RB_STD_DrawView( void );
|
|
void RB_STD_FogAllLights( void );
|
|
void RB_BakeTextureMatrixIntoTexgen( idPlane lightProject[3], const float textureMatrix[16] );
|
|
|
|
/*
|
|
============================================================
|
|
|
|
DRAW_*
|
|
|
|
============================================================
|
|
*/
|
|
|
|
void R_ARB2_Init( void );
|
|
void RB_ARB2_DrawInteractions( void );
|
|
void R_ReloadARBPrograms_f( const idCmdArgs &args );
|
|
int R_FindARBProgram( GLenum target, const char *program );
|
|
|
|
typedef enum {
|
|
PROG_INVALID,
|
|
VPROG_INTERACTION,
|
|
VPROG_ENVIRONMENT,
|
|
VPROG_BUMPY_ENVIRONMENT,
|
|
VPROG_STENCIL_SHADOW,
|
|
VPROG_TEST,
|
|
FPROG_INTERACTION,
|
|
FPROG_ENVIRONMENT,
|
|
FPROG_BUMPY_ENVIRONMENT,
|
|
FPROG_TEST,
|
|
VPROG_AMBIENT,
|
|
FPROG_AMBIENT,
|
|
VPROG_GLASSWARP,
|
|
FPROG_GLASSWARP,
|
|
PROG_USER
|
|
} program_t;
|
|
|
|
/*
|
|
|
|
All vertex programs use the same constant register layout:
|
|
|
|
c[4] localLightOrigin
|
|
c[5] localViewOrigin
|
|
c[6] lightProjection S
|
|
c[7] lightProjection T
|
|
c[8] lightProjection Q
|
|
c[9] lightFalloff S
|
|
c[10] bumpMatrix S
|
|
c[11] bumpMatrix T
|
|
c[12] diffuseMatrix S
|
|
c[13] diffuseMatrix T
|
|
c[14] specularMatrix S
|
|
c[15] specularMatrix T
|
|
|
|
|
|
c[20] light falloff tq constant
|
|
|
|
// texture 0 was cube map
|
|
// texture 1 will be the per-surface bump map
|
|
// texture 2 will be the light falloff texture
|
|
// texture 3 will be the light projection texture
|
|
// texture 4 is the per-surface diffuse map
|
|
// texture 5 is the per-surface specular map
|
|
// texture 6 is the specular half angle cube map
|
|
|
|
*/
|
|
|
|
typedef enum {
|
|
PP_LIGHT_ORIGIN = 4,
|
|
PP_VIEW_ORIGIN,
|
|
PP_LIGHT_PROJECT_S,
|
|
PP_LIGHT_PROJECT_T,
|
|
PP_LIGHT_PROJECT_Q,
|
|
PP_LIGHT_FALLOFF_S,
|
|
PP_BUMP_MATRIX_S,
|
|
PP_BUMP_MATRIX_T,
|
|
PP_DIFFUSE_MATRIX_S,
|
|
PP_DIFFUSE_MATRIX_T,
|
|
PP_SPECULAR_MATRIX_S,
|
|
PP_SPECULAR_MATRIX_T,
|
|
PP_COLOR_MODULATE,
|
|
PP_COLOR_ADD,
|
|
|
|
PP_LIGHT_FALLOFF_TQ = 20 // only for NV programs
|
|
} programParameter_t;
|
|
|
|
|
|
/*
|
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============================================================
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TR_STENCILSHADOWS
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"facing" should have one more element than tri->numIndexes / 3, which should be set to 1
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============================================================
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*/
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void R_MakeShadowFrustums( idRenderLightLocal *def );
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typedef enum {
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SG_DYNAMIC, // use infinite projections
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SG_STATIC, // clip to bounds
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SG_OFFLINE // perform very time consuming optimizations
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} shadowGen_t;
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srfTriangles_t *R_CreateShadowVolume( const idRenderEntityLocal *ent,
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const srfTriangles_t *tri, const idRenderLightLocal *light,
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shadowGen_t optimize, srfCullInfo_t &cullInfo );
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/*
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============================================================
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TR_TURBOSHADOW
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Fast, non-clipped overshoot shadow volumes
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"facing" should have one more element than tri->numIndexes / 3, which should be set to 1
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calling this function may modify "facing" based on culling
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============================================================
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*/
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srfTriangles_t *R_CreateVertexProgramTurboShadowVolume( const idRenderEntityLocal *ent,
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const srfTriangles_t *tri, const idRenderLightLocal *light,
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srfCullInfo_t &cullInfo );
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srfTriangles_t *R_CreateTurboShadowVolume( const idRenderEntityLocal *ent,
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const srfTriangles_t *tri, const idRenderLightLocal *light,
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srfCullInfo_t &cullInfo );
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/*
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============================================================
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util/shadowopt3
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dmap time optimization of shadow volumes, called from R_CreateShadowVolume
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============================================================
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*/
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typedef struct {
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idVec3 *verts; // includes both front and back projections, caller should free
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int numVerts;
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glIndex_t *indexes; // caller should free
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// indexes must be sorted frontCap, rearCap, silPlanes so the caps can be removed
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// when the viewer is in a position that they don't need to see them
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int numFrontCapIndexes;
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int numRearCapIndexes;
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int numSilPlaneIndexes;
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int totalIndexes;
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} optimizedShadow_t;
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optimizedShadow_t SuperOptimizeOccluders( idVec4 *verts, glIndex_t *indexes, int numIndexes,
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idPlane projectionPlane, idVec3 projectionOrigin );
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void CleanupOptimizedShadowTris( srfTriangles_t *tri );
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/*
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============================================================
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TRISURF
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============================================================
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*/
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#define USE_TRI_DATA_ALLOCATOR
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void R_InitTriSurfData( void );
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void R_ShutdownTriSurfData( void );
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void R_PurgeTriSurfData( frameData_t *frame );
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void R_ShowTriSurfMemory_f( const idCmdArgs &args );
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srfTriangles_t * R_AllocStaticTriSurf( void );
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srfTriangles_t * R_CopyStaticTriSurf( const srfTriangles_t *tri );
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void R_AllocStaticTriSurfVerts( srfTriangles_t *tri, int numVerts );
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void R_AllocStaticTriSurfIndexes( srfTriangles_t *tri, int numIndexes );
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void R_AllocStaticTriSurfShadowVerts( srfTriangles_t *tri, int numVerts );
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void R_AllocStaticTriSurfPlanes( srfTriangles_t *tri, int numIndexes );
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void R_ResizeStaticTriSurfVerts( srfTriangles_t *tri, int numVerts );
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void R_ResizeStaticTriSurfIndexes( srfTriangles_t *tri, int numIndexes );
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void R_ResizeStaticTriSurfShadowVerts( srfTriangles_t *tri, int numVerts );
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void R_ReferenceStaticTriSurfVerts( srfTriangles_t *tri, const srfTriangles_t *reference );
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void R_ReferenceStaticTriSurfIndexes( srfTriangles_t *tri, const srfTriangles_t *reference );
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void R_FreeStaticTriSurfSilIndexes( srfTriangles_t *tri );
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void R_FreeStaticTriSurf( srfTriangles_t *tri );
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void R_FreeStaticTriSurfVertexCaches( srfTriangles_t *tri );
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void R_ReallyFreeStaticTriSurf( srfTriangles_t *tri );
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void R_FreeDeferredTriSurfs( frameData_t *frame );
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int R_TriSurfMemory( const srfTriangles_t *tri );
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void R_BoundTriSurf( srfTriangles_t *tri );
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void R_RemoveDuplicatedTriangles( srfTriangles_t *tri );
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void R_CreateSilIndexes( srfTriangles_t *tri );
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void R_RemoveDegenerateTriangles( srfTriangles_t *tri );
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void R_RemoveUnusedVerts( srfTriangles_t *tri );
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void R_RangeCheckIndexes( const srfTriangles_t *tri );
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void R_CreateVertexNormals( srfTriangles_t *tri ); // also called by dmap
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void R_DeriveFacePlanes( srfTriangles_t *tri ); // also called by renderbump
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void R_CleanupTriangles( srfTriangles_t *tri, bool createNormals, bool identifySilEdges, bool useUnsmoothedTangents );
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void R_ReverseTriangles( srfTriangles_t *tri );
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// Only deals with vertexes and indexes, not silhouettes, planes, etc.
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// Does NOT perform a cleanup triangles, so there may be duplicated verts in the result.
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srfTriangles_t * R_MergeSurfaceList( const srfTriangles_t **surfaces, int numSurfaces );
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srfTriangles_t * R_MergeTriangles( const srfTriangles_t *tri1, const srfTriangles_t *tri2 );
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// if the deformed verts have significant enough texture coordinate changes to reverse the texture
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// polarity of a triangle, the tangents will be incorrect
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void R_DeriveTangents( srfTriangles_t *tri, bool allocFacePlanes = true );
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// deformable meshes precalculate as much as possible from a base frame, then generate
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// complete srfTriangles_t from just a new set of vertexes
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typedef struct deformInfo_s {
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int numSourceVerts;
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// numOutputVerts may be smaller if the input had duplicated or degenerate triangles
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// it will often be larger if the input had mirrored texture seams that needed
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// to be busted for proper tangent spaces
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int numOutputVerts;
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int numMirroredVerts;
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int * mirroredVerts;
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int numIndexes;
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glIndex_t * indexes;
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glIndex_t * silIndexes;
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int numDupVerts;
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int * dupVerts;
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int numSilEdges;
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silEdge_t * silEdges;
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dominantTri_t * dominantTris;
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} deformInfo_t;
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deformInfo_t * R_BuildDeformInfo( int numVerts, const idDrawVert *verts, int numIndexes, const int *indexes, bool useUnsmoothedTangents );
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void R_FreeDeformInfo( deformInfo_t *deformInfo );
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int R_DeformInfoMemoryUsed( deformInfo_t *deformInfo );
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/*
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============================================================
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SUBVIEW
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============================================================
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*/
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bool R_PreciseCullSurface( const drawSurf_t *drawSurf, idBounds &ndcBounds );
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bool R_GenerateSubViews( void );
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/*
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============================================================
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SCENE GENERATION
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============================================================
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*/
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void R_InitFrameData( void );
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void R_ShutdownFrameData( void );
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int R_CountFrameData( void );
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void R_ToggleSmpFrame( void );
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void *R_FrameAlloc( int bytes );
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void *R_ClearedFrameAlloc( int bytes );
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void R_FrameFree( void *data );
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void *R_StaticAlloc( int bytes ); // just malloc with error checking
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void *R_ClearedStaticAlloc( int bytes ); // with memset
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void R_StaticFree( void *data );
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/*
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=============================================================
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RENDERER DEBUG TOOLS
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=============================================================
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*/
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float RB_DrawTextLength( const char *text, float scale, int len );
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void RB_AddDebugText( const char *text, const idVec3 &origin, float scale, const idVec4 &color, const idMat3 &viewAxis, const int align, const int lifetime, const bool depthTest );
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void RB_ClearDebugText( int time );
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void RB_AddDebugLine( const idVec4 &color, const idVec3 &start, const idVec3 &end, const int lifeTime, const bool depthTest );
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void RB_ClearDebugLines( int time );
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void RB_AddDebugPolygon( const idVec4 &color, const idWinding &winding, const int lifeTime, const bool depthTest );
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void RB_ClearDebugPolygons( int time );
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void RB_DrawBounds( const idBounds &bounds );
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void RB_ShowLights( drawSurf_t **drawSurfs, int numDrawSurfs );
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void RB_ShowLightCount( drawSurf_t **drawSurfs, int numDrawSurfs );
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void RB_PolygonClear( void );
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void RB_ScanStencilBuffer( void );
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void RB_ShowDestinationAlpha( void );
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void RB_ShowOverdraw( void );
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void RB_RenderDebugTools( drawSurf_t **drawSurfs, int numDrawSurfs );
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void RB_ShutdownDebugTools( void );
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|
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/*
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|
=============================================================
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|
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TR_BACKEND
|
|
|
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=============================================================
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*/
|
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void RB_SetDefaultGLState( void );
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void RB_SetGL2D( void );
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void RB_ShowImages( void );
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void RB_ExecuteBackEndCommands( const emptyCommand_t *cmds );
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/*
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|
=============================================================
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|
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TR_GUISURF
|
|
|
|
=============================================================
|
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*/
|
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|
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void R_SurfaceToTextureAxis( const srfTriangles_t *tri, idVec3 &origin, idVec3 axis[3] );
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void R_RenderGuiSurf( idUserInterface *gui, drawSurf_t *drawSurf );
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|
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/*
|
|
=============================================================
|
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|
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TR_ORDERINDEXES
|
|
|
|
=============================================================
|
|
*/
|
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|
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void R_OrderIndexes( int numIndexes, glIndex_t *indexes );
|
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|
|
/*
|
|
=============================================================
|
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|
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TR_DEFORM
|
|
|
|
=============================================================
|
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*/
|
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|
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void R_DeformDrawSurf( drawSurf_t *drawSurf );
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|
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/*
|
|
=============================================================
|
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|
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TR_TRACE
|
|
|
|
=============================================================
|
|
*/
|
|
|
|
typedef struct {
|
|
float fraction;
|
|
// only valid if fraction < 1.0
|
|
idVec3 point;
|
|
idVec3 normal;
|
|
int indexes[3];
|
|
} localTrace_t;
|
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|
|
localTrace_t R_LocalTrace( const idVec3 &start, const idVec3 &end, const float radius, const srfTriangles_t *tri );
|
|
void RB_ShowTrace( drawSurf_t **drawSurfs, int numDrawSurfs );
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|
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/*
|
|
=============================================================
|
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|
|
TR_SHADOWBOUNDS
|
|
|
|
=============================================================
|
|
*/
|
|
idScreenRect R_CalcIntersectionScissor( const idRenderLightLocal * lightDef,
|
|
const idRenderEntityLocal * entityDef,
|
|
const viewDef_t * viewDef );
|
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|
|
//=============================================
|
|
|
|
#endif /* !__TR_LOCAL_H__ */
|