175 lines
5.4 KiB
C++
175 lines
5.4 KiB
C++
//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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// $NoKeywords: $
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//
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//===========================================================================//
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#ifndef RENDER_H
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#define RENDER_H
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#ifdef _WIN32
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#pragma once
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#endif
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#include "mathlib/vector.h"
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// render.h -- public interface to refresh functions
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extern float r_blend; // Global blending factor for the current entity
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extern float r_colormod[3]; // Global color modulation for the current entity
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extern bool g_bIsBlendingOrModulating;
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//-----------------------------------------------------------------------------
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// Current view
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//-----------------------------------------------------------------------------
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inline const Vector &CurrentViewOrigin()
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{
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#ifdef DBGFLAG_ASSERT
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extern bool g_bCanAccessCurrentView;
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#endif
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extern Vector g_CurrentViewOrigin;
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Assert( g_bCanAccessCurrentView );
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return g_CurrentViewOrigin;
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}
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inline const Vector &CurrentViewForward()
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{
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#ifdef DBGFLAG_ASSERT
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extern bool g_bCanAccessCurrentView;
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#endif
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extern Vector g_CurrentViewForward;
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Assert( g_bCanAccessCurrentView );
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return g_CurrentViewForward;
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}
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inline const Vector &CurrentViewRight()
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{
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#ifdef DBGFLAG_ASSERT
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extern bool g_bCanAccessCurrentView;
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#endif
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extern Vector g_CurrentViewRight;
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Assert( g_bCanAccessCurrentView );
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return g_CurrentViewRight;
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}
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inline const Vector &CurrentViewUp()
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{
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#ifdef DBGFLAG_ASSERT
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extern bool g_bCanAccessCurrentView;
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#endif
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extern Vector g_CurrentViewUp;
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Assert( g_bCanAccessCurrentView );
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return g_CurrentViewUp;
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}
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//-----------------------------------------------------------------------------
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// Main view
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//-----------------------------------------------------------------------------
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inline const Vector &MainViewOrigin()
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{
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extern Vector g_MainViewOrigin;
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return g_MainViewOrigin;
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}
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inline const Vector &MainViewForward()
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{
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extern Vector g_MainViewForward;
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return g_MainViewForward;
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}
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inline const Vector &MainViewRight()
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{
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extern Vector g_MainViewRight;
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return g_MainViewRight;
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}
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inline const Vector &MainViewUp()
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{
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extern Vector g_MainViewUp;
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return g_MainViewUp;
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}
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void R_Init (void);
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void R_LevelInit(void);
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void R_LevelShutdown(void);
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// Loads world geometry. Called when map changes or dx level changes
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void R_LoadWorldGeometry( bool bDXChange = false );
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#include "view_shared.h"
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#include "ivrenderview.h"
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class VMatrix;
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abstract_class IRender
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{
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public:
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virtual void FrameBegin( void ) = 0;
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virtual void FrameEnd( void ) = 0;
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virtual void ViewSetupVis( bool novis, int numorigins, const Vector origin[] ) = 0;
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virtual void ViewDrawFade( byte *color, IMaterial* pFadeMaterial ) = 0;
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virtual void DrawSceneBegin( void ) = 0;
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virtual void DrawSceneEnd( void ) = 0;
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virtual IWorldRenderList * CreateWorldList() = 0;
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virtual void BuildWorldLists( IWorldRenderList *pList, WorldListInfo_t* pInfo, int iForceViewLeaf, const VisOverrideData_t* pVisData, bool bShadowDepth, float *pReflectionWaterHeight ) = 0;
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virtual void DrawWorldLists( IWorldRenderList *pList, unsigned long flags, float waterZAdjust ) = 0;
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// UNDONE: these are temporary functions that will end up on the other
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// side of this interface
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// accessors
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// virtual const Vector& UnreflectedViewOrigin() = 0;
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virtual const Vector& ViewOrigin( void ) = 0;
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virtual const QAngle& ViewAngles( void ) = 0;
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virtual CViewSetup const &ViewGetCurrent( void ) = 0;
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virtual const VMatrix& ViewMatrix( void ) = 0;
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virtual const VMatrix& WorldToScreenMatrix( void ) = 0;
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virtual float GetFramerate( void ) = 0;
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virtual float GetZNear( void ) = 0;
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virtual float GetZFar( void ) = 0;
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// Query current fov and view model fov
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virtual float GetFov( void ) = 0;
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virtual float GetFovY( void ) = 0;
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virtual float GetFovViewmodel( void ) = 0;
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// Compute the clip-space coordinates of a point in 3D
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// Clip-space is normalized screen coordinates (-1 to 1 in x and y)
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// Returns true if the point is behind the camera
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virtual bool ClipTransformWithProjection ( const VMatrix& worldToScreen, const Vector& point, Vector* pClip ) = 0;
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// Same, using the current engine's matrices.
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virtual bool ClipTransform( Vector const& point, Vector* pClip ) = 0;
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// Compute the screen-space coordinates of a point in 3D
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// This returns actual pixels
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// Returns true if the point is behind the camera
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virtual bool ScreenTransform( Vector const& point, Vector* pScreen ) = 0;
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virtual void Push3DView( const CViewSetup &view, int nFlags, ITexture* pRenderTarget, Frustum frustumPlanes ) = 0;
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virtual void Push3DView( const CViewSetup &view, int nFlags, ITexture* pRenderTarget, Frustum frustumPlanes, ITexture* pDepthTexture ) = 0;
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virtual void Push2DView( const CViewSetup &view, int nFlags, ITexture* pRenderTarget, Frustum frustumPlanes ) = 0;
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virtual void PopView( Frustum frustumPlanes ) = 0;
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virtual void SetMainView( const Vector &vecOrigin, const QAngle &angles ) = 0;
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virtual void ViewSetupVisEx( bool novis, int numorigins, const Vector origin[], unsigned int &returnFlags ) = 0;
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virtual void OverrideViewFrustum( Frustum custom ) = 0;
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virtual void UpdateBrushModelLightmap( model_t *model, IClientRenderable *Renderable ) = 0;
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virtual void BeginUpdateLightmaps( void ) = 0;
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virtual void EndUpdateLightmaps( void ) = 0;
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virtual bool InLightmapUpdate( void ) const = 0;
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};
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void R_PushDlights (void);
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// UNDONE Remove this - pass this around to functions/systems that need it.
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extern IRender *g_EngineRenderer;
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#endif // RENDER_H
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