//===== Copyright © 1996-2005, Valve Corporation, All rights reserved. ======// // // Purpose: // //===========================================================================// #include "cbase.h" #include "view.h" #include "iviewrender.h" #include "iviewrender_beams.h" #include "view_shared.h" #include "ivieweffects.h" #include "iinput.h" #include "iclientmode.h" #include "prediction.h" #include "viewrender.h" #include "c_te_legacytempents.h" #include "cl_mat_stub.h" #include "tier0/vprof.h" #include "IClientVehicle.h" #include "engine/IEngineTrace.h" #include "mathlib/vmatrix.h" #include "rendertexture.h" #include "c_world.h" #include #include "igameevents.h" #include "smoke_fog_overlay.h" #include "bitmap/tgawriter.h" #include "hltvcamera.h" #include "input.h" #include "filesystem.h" #include "materialsystem/itexture.h" #include "toolframework_client.h" #include "tier0/icommandline.h" #include "IEngineVGui.h" #include #include #include "ScreenSpaceEffects.h" #if defined( HL2_CLIENT_DLL ) || defined( CSTRIKE_DLL ) #define USE_MONITORS #endif #ifdef PORTAL #include "C_Prop_Portal.h" //portal surface rendering functions #endif // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" void ToolFramework_AdjustEngineViewport( int& x, int& y, int& width, int& height ); bool ToolFramework_SetupEngineView( Vector &origin, QAngle &angles, float &fov ); bool ToolFramework_SetupEngineMicrophone( Vector &origin, QAngle &angles ); extern ConVar default_fov; extern bool g_bRenderingScreenshot; #if !defined( _X360 ) #define SAVEGAME_SCREENSHOT_WIDTH 180 #define SAVEGAME_SCREENSHOT_HEIGHT 100 #else #define SAVEGAME_SCREENSHOT_WIDTH 128 #define SAVEGAME_SCREENSHOT_HEIGHT 128 #endif #ifndef _XBOX extern ConVar sensitivity; #endif ConVar zoom_sensitivity_ratio( "zoom_sensitivity_ratio", "1.0", 0, "Additional mouse sensitivity scale factor applied when FOV is zoomed in." ); CViewRender g_DefaultViewRender; IViewRender *view = NULL; // set in cldll_client_init.cpp if no mod creates their own #if _DEBUG bool g_bRenderingCameraView = false; #endif static Vector g_vecRenderOrigin(0,0,0); static QAngle g_vecRenderAngles(0,0,0); static Vector g_vecPrevRenderOrigin(0,0,0); // Last frame's render origin static QAngle g_vecPrevRenderAngles(0,0,0); // Last frame's render angles static Vector g_vecVForward(0,0,0), g_vecVRight(0,0,0), g_vecVUp(0,0,0); static VMatrix g_matCamInverse; extern ConVar cl_forwardspeed; static ConVar v_centermove( "v_centermove", "0.15"); static ConVar v_centerspeed( "v_centerspeed","500" ); // 54 degrees approximates a 35mm camera - we determined that this makes the viewmodels // and motions look the most natural. ConVar v_viewmodel_fov( "viewmodel_fov", "54", FCVAR_CHEAT ); static ConVar mat_viewportscale( "mat_viewportscale", "1.0", FCVAR_CHEAT, "Scale down the main viewport (to reduce GPU impact on CPU profiling)", true, (1.0f / 640.0f), true, 1.0f ); ConVar cl_leveloverview( "cl_leveloverview", "0", FCVAR_CHEAT ); static ConVar r_mapextents( "r_mapextents", "16384", FCVAR_CHEAT, "Set the max dimension for the map. This determines the far clipping plane" ); // UNDONE: Delete this or move to the material system? ConVar gl_clear( "gl_clear","0"); ConVar gl_clear_randomcolor( "gl_clear_randomcolor", "0", FCVAR_CHEAT, "Clear the back buffer to random colors every frame. Helps spot open seams in geometry." ); static ConVar r_farz( "r_farz", "-1", FCVAR_CHEAT, "Override the far clipping plane. -1 means to use the value in env_fog_controller." ); static ConVar cl_demoviewoverride( "cl_demoviewoverride", "0", 0, "Override view during demo playback" ); static Vector s_DemoView; static QAngle s_DemoAngle; static void CalcDemoViewOverride( Vector &origin, QAngle &angles ) { engine->SetViewAngles( s_DemoAngle ); input->ExtraMouseSample( gpGlobals->absoluteframetime, true ); engine->GetViewAngles( s_DemoAngle ); Vector forward, right, up; AngleVectors( s_DemoAngle, &forward, &right, &up ); float speed = gpGlobals->absoluteframetime * cl_demoviewoverride.GetFloat() * 320; s_DemoView += speed * input->KeyState (&in_forward) * forward ; s_DemoView -= speed * input->KeyState (&in_back) * forward ; s_DemoView += speed * input->KeyState (&in_moveright) * right ; s_DemoView -= speed * input->KeyState (&in_moveleft) * right ; origin = s_DemoView; angles = s_DemoAngle; } //----------------------------------------------------------------------------- // Accessors to return the main view (where the player's looking) //----------------------------------------------------------------------------- const Vector &MainViewOrigin() { return g_vecRenderOrigin; } const QAngle &MainViewAngles() { return g_vecRenderAngles; } const Vector &MainViewForward() { return g_vecVForward; } const Vector &MainViewRight() { return g_vecVRight; } const Vector &MainViewUp() { return g_vecVUp; } const VMatrix &MainWorldToViewMatrix() { return g_matCamInverse; } const Vector &PrevMainViewOrigin() { return g_vecPrevRenderOrigin; } const QAngle &PrevMainViewAngles() { return g_vecPrevRenderAngles; } //----------------------------------------------------------------------------- // Compute the world->camera transform //----------------------------------------------------------------------------- void ComputeCameraVariables( const Vector &vecOrigin, const QAngle &vecAngles, Vector *pVecForward, Vector *pVecRight, Vector *pVecUp, VMatrix *pMatCamInverse ) { // Compute view bases AngleVectors( vecAngles, pVecForward, pVecRight, pVecUp ); for (int i = 0; i < 3; ++i) { (*pMatCamInverse)[0][i] = (*pVecRight)[i]; (*pMatCamInverse)[1][i] = (*pVecUp)[i]; (*pMatCamInverse)[2][i] = -(*pVecForward)[i]; (*pMatCamInverse)[3][i] = 0.0F; } (*pMatCamInverse)[0][3] = -DotProduct( *pVecRight, vecOrigin ); (*pMatCamInverse)[1][3] = -DotProduct( *pVecUp, vecOrigin ); (*pMatCamInverse)[2][3] = DotProduct( *pVecForward, vecOrigin ); (*pMatCamInverse)[3][3] = 1.0F; } bool R_CullSphere( VPlane const *pPlanes, int nPlanes, Vector const *pCenter, float radius) { for(int i=0; i < nPlanes; i++) if(pPlanes[i].DistTo(*pCenter) < -radius) return true; return false; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- static void StartPitchDrift( void ) { view->StartPitchDrift(); } static ConCommand centerview( "centerview", StartPitchDrift ); //----------------------------------------------------------------------------- // Purpose: Initializes all view systems //----------------------------------------------------------------------------- void CViewRender::Init( void ) { memset( &m_PitchDrift, 0, sizeof( m_PitchDrift ) ); m_bDrawOverlay = false; m_pDrawEntities = cvar->FindVar( "r_drawentities" ); m_pDrawBrushModels = cvar->FindVar( "r_drawbrushmodels" ); beams->InitBeams(); tempents->Init(); m_TranslucentSingleColor.Init( "debug/debugtranslucentsinglecolor", TEXTURE_GROUP_OTHER ); m_ModulateSingleColor.Init( "engine/modulatesinglecolor", TEXTURE_GROUP_OTHER ); extern CMaterialReference g_material_WriteZ; g_material_WriteZ.Init( "engine/writez", TEXTURE_GROUP_OTHER ); // FIXME: QAngle angles; engine->GetViewAngles( angles ); AngleVectors( angles, &m_vecLastFacing ); } //----------------------------------------------------------------------------- // Purpose: Called once per level change //----------------------------------------------------------------------------- void CViewRender::LevelInit( void ) { beams->ClearBeams(); tempents->Clear(); m_BuildWorldListsNumber = 0; m_BuildRenderableListsNumber = 0; m_bTakeFreezeFrame = false; m_flFreezeFrameUntil = 0; // Clear our overlay materials m_ScreenOverlayMaterial.Init( NULL ); // Init all IScreenSpaceEffects g_pScreenSpaceEffects->InitScreenSpaceEffects( ); } //----------------------------------------------------------------------------- // Purpose: Called once per level change //----------------------------------------------------------------------------- void CViewRender::LevelShutdown( void ) { g_pScreenSpaceEffects->ShutdownScreenSpaceEffects( ); } //----------------------------------------------------------------------------- // Purpose: Called at shutdown //----------------------------------------------------------------------------- void CViewRender::Shutdown( void ) { m_TranslucentSingleColor.Shutdown( ); m_ModulateSingleColor.Shutdown( ); beams->ShutdownBeams(); tempents->Shutdown(); } //----------------------------------------------------------------------------- // Returns the worldlists build number //----------------------------------------------------------------------------- int CViewRender::BuildWorldListsNumber( void ) const { return m_BuildWorldListsNumber; } //----------------------------------------------------------------------------- // Purpose: Start moving pitch toward ideal //----------------------------------------------------------------------------- void CViewRender::StartPitchDrift (void) { if ( m_PitchDrift.laststop == gpGlobals->curtime ) { // Something else is blocking the drift. return; } if ( m_PitchDrift.nodrift || !m_PitchDrift.pitchvel ) { m_PitchDrift.pitchvel = v_centerspeed.GetFloat(); m_PitchDrift.nodrift = false; m_PitchDrift.driftmove = 0; } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CViewRender::StopPitchDrift (void) { m_PitchDrift.laststop = gpGlobals->curtime; m_PitchDrift.nodrift = true; m_PitchDrift.pitchvel = 0; } //----------------------------------------------------------------------------- // Purpose: Moves the client pitch angle towards cl.idealpitch sent by the server. // If the user is adjusting pitch manually, either with lookup/lookdown, // mlook and mouse, or klook and keyboard, pitch drifting is constantly stopped. //----------------------------------------------------------------------------- void CViewRender::DriftPitch (void) { float delta, move; C_BasePlayer *player = C_BasePlayer::GetLocalPlayer(); if ( !player ) return; if ( engine->IsHLTV() || ( player->GetGroundEntity() == NULL ) || engine->IsPlayingDemo() ) { m_PitchDrift.driftmove = 0; m_PitchDrift.pitchvel = 0; return; } // Don't count small mouse motion if ( m_PitchDrift.nodrift ) { if ( fabs( input->GetLastForwardMove() ) < cl_forwardspeed.GetFloat() ) { m_PitchDrift.driftmove = 0; } else { m_PitchDrift.driftmove += gpGlobals->frametime; } if ( m_PitchDrift.driftmove > v_centermove.GetFloat() ) { StartPitchDrift (); } return; } // How far off are we delta = prediction->GetIdealPitch() - player->GetAbsAngles()[ PITCH ]; if ( !delta ) { m_PitchDrift.pitchvel = 0; return; } // Determine movement amount move = gpGlobals->frametime * m_PitchDrift.pitchvel; // Accelerate m_PitchDrift.pitchvel += gpGlobals->frametime * v_centerspeed.GetFloat(); // Move predicted pitch appropriately if (delta > 0) { if ( move > delta ) { m_PitchDrift.pitchvel = 0; move = delta; } player->SetLocalAngles( player->GetLocalAngles() + QAngle( move, 0, 0 ) ); } else if ( delta < 0 ) { if ( move > -delta ) { m_PitchDrift.pitchvel = 0; move = -delta; } player->SetLocalAngles( player->GetLocalAngles() - QAngle( move, 0, 0 ) ); } } // This is called by cdll_client_int to setup view model origins. This has to be done before // simulation so entities can access attachment points on view models during simulation. void CViewRender::OnRenderStart() { VPROF_("CViewRender::OnRenderStart", 2, VPROF_BUDGETGROUP_OTHER_UNACCOUNTED, false, 0); SetUpView(); // Adjust mouse sensitivity based upon the current FOV C_BasePlayer *player = C_BasePlayer::GetLocalPlayer(); if ( player ) { default_fov.SetValue( player->m_iDefaultFOV ); //Update our FOV, including any zooms going on int iDefaultFOV = default_fov.GetInt(); int localFOV = player->GetFOV(); int min_fov = player->GetMinFOV(); // Don't let it go too low localFOV = MAX( min_fov, localFOV ); gHUD.m_flFOVSensitivityAdjust = 1.0f; #ifndef _XBOX if ( gHUD.m_flMouseSensitivityFactor ) { gHUD.m_flMouseSensitivity = sensitivity.GetFloat() * gHUD.m_flMouseSensitivityFactor; } else #endif { // No override, don't use huge sensitivity if ( localFOV == iDefaultFOV ) { #ifndef _XBOX // reset to saved sensitivity gHUD.m_flMouseSensitivity = 0; #endif } else { // Set a new sensitivity that is proportional to the change from the FOV default and scaled // by a separate compensating factor if ( iDefaultFOV == 0 ) { Assert(0); // would divide by zero, something is broken with iDefatulFOV iDefaultFOV = 1; } gHUD.m_flFOVSensitivityAdjust = ((float)localFOV / (float)iDefaultFOV) * // linear fov downscale zoom_sensitivity_ratio.GetFloat(); // sensitivity scale factor #ifndef _XBOX gHUD.m_flMouseSensitivity = gHUD.m_flFOVSensitivityAdjust * sensitivity.GetFloat(); // regular sensitivity #endif } } } } //----------------------------------------------------------------------------- // Purpose: // Output : const CViewSetup //----------------------------------------------------------------------------- const CViewSetup *CViewRender::GetViewSetup( void ) const { return &m_CurrentView; } //----------------------------------------------------------------------------- // Purpose: // Output : const CViewSetup //----------------------------------------------------------------------------- const CViewSetup *CViewRender::GetPlayerViewSetup( void ) const { return &m_View; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CViewRender::DisableVis( void ) { m_bForceNoVis = true; } #ifdef _DEBUG static Vector s_DbgSetupOrigin; static QAngle s_DbgSetupAngles; #endif //----------------------------------------------------------------------------- // Gets znear + zfar //----------------------------------------------------------------------------- float CViewRender::GetZNear() { return VIEW_NEARZ; } float CViewRender::GetZFar() { // Initialize view structure with default values float farZ; if ( r_farz.GetFloat() < 1 ) { // Use the far Z from the map's parameters. farZ = r_mapextents.GetFloat() * 1.73205080757f; C_BasePlayer *pPlayer = C_BasePlayer::GetLocalPlayer(); if( pPlayer && pPlayer->GetFogParams() ) { if ( pPlayer->GetFogParams()->farz > 0 ) { farZ = pPlayer->GetFogParams()->farz; } } } else { farZ = r_farz.GetFloat(); } return farZ; } //----------------------------------------------------------------------------- // Sets up the view parameters //----------------------------------------------------------------------------- void CViewRender::SetUpView() { VPROF("CViewRender::SetUpView"); // Initialize view structure with default values float farZ = GetZFar(); m_View.zFar = farZ; m_View.zFarViewmodel = farZ; // UNDONE: Make this farther out? // closest point of approach seems to be view center to top of crouched box m_View.zNear = GetZNear(); m_View.zNearViewmodel = 1; m_View.fov = default_fov.GetFloat(); m_View.m_bOrtho = false; // Enable spatial partition access to edicts partition->SuppressLists( PARTITION_ALL_CLIENT_EDICTS, false ); C_BasePlayer *pPlayer = C_BasePlayer::GetLocalPlayer(); if ( engine->IsHLTV() ) { HLTVCamera()->CalcView( m_View.origin, m_View.angles, m_View.fov ); } else { // FIXME: Are there multiple views? If so, then what? // FIXME: What happens when there's no player? if (pPlayer) { pPlayer->CalcView( m_View.origin, m_View.angles, m_View.zNear, m_View.zFar, m_View.fov ); // If we are looking through another entities eyes, then override the angles/origin for m_View int viewentity = render->GetViewEntity(); if ( !g_nKillCamMode && (pPlayer->entindex() != viewentity) ) { C_BaseEntity *ve = cl_entitylist->GetEnt( viewentity ); if ( ve ) { VectorCopy( ve->GetAbsOrigin(), m_View.origin ); VectorCopy( ve->GetAbsAngles(), m_View.angles ); } } pPlayer->CalcViewModelView( m_View.origin, m_View.angles ); } // Even if the engine is paused need to override the view // for keeping the camera control during pause. g_pClientMode->OverrideView( &m_View ); } // give the toolsystem a chance to override the view ToolFramework_SetupEngineView( m_View.origin, m_View.angles, m_View.fov ); if ( engine->IsPlayingDemo() ) { if ( cl_demoviewoverride.GetFloat() > 0.0f ) { // Retreive view angles from engine ( could have been set in IN_AdjustAngles above ) CalcDemoViewOverride( m_View.origin, m_View.angles ); } else { s_DemoView = m_View.origin; s_DemoAngle = m_View.angles; } } //Find the offset our current FOV is from the default value float flFOVOffset = default_fov.GetFloat() - m_View.fov; //Adjust the viewmodel's FOV to move with any FOV offsets on the viewer's end m_View.fovViewmodel = g_pClientMode->GetViewModelFOV() - flFOVOffset; // Disable spatical partition access partition->SuppressLists( PARTITION_ALL_CLIENT_EDICTS, true ); // Enable access to all model bones C_BaseAnimating::PopBoneAccess( "OnRenderStart->CViewRender::SetUpView" ); // pops the (true, false) bone access set in OnRenderStart C_BaseAnimating::PushAllowBoneAccess( true, true, "CViewRender::SetUpView->OnRenderEnd" ); // pop is in OnRenderEnd() // Compute the world->main camera transform ComputeCameraVariables( m_View.origin, m_View.angles, &g_vecVForward, &g_vecVRight, &g_vecVUp, &g_matCamInverse ); // set up the hearing origin... AudioState_t audioState; audioState.m_Origin = m_View.origin; audioState.m_Angles = m_View.angles; audioState.m_bIsUnderwater = pPlayer && pPlayer->AudioStateIsUnderwater( m_View.origin ); ToolFramework_SetupAudioState( audioState ); m_View.origin = audioState.m_Origin; m_View.angles = audioState.m_Angles; engine->SetAudioState( audioState ); g_vecPrevRenderOrigin = g_vecRenderOrigin; g_vecPrevRenderAngles = g_vecRenderAngles; g_vecRenderOrigin = m_View.origin; g_vecRenderAngles = m_View.angles; #ifdef _DEBUG s_DbgSetupOrigin = m_View.origin; s_DbgSetupAngles = m_View.angles; #endif } void CViewRender::WriteSaveGameScreenshotOfSize( const char *pFilename, int width, int height ) { CMatRenderContextPtr pRenderContext( materials ); pRenderContext->MatrixMode( MATERIAL_PROJECTION ); pRenderContext->PushMatrix(); pRenderContext->MatrixMode( MATERIAL_VIEW ); pRenderContext->PushMatrix(); g_bRenderingScreenshot = true; // Push back buffer on the stack with small viewport pRenderContext->PushRenderTargetAndViewport( NULL, 0, 0, width, height ); // render out to the backbuffer CViewSetup viewSetup = m_View; viewSetup.x = 0; viewSetup.y = 0; viewSetup.width = width; viewSetup.height = height; viewSetup.fov = ScaleFOVByWidthRatio( m_View.fov, ( (float)width / (float)height ) / ( 4.0f / 3.0f ) ); viewSetup.m_bRenderToSubrectOfLargerScreen = true; // draw out the scene // Don't draw the HUD or the viewmodel RenderView( viewSetup, VIEW_CLEAR_DEPTH | VIEW_CLEAR_COLOR, 0 ); // get the data from the backbuffer and save to disk // bitmap bits unsigned char *pImage = ( unsigned char * )malloc( width * 3 * height ); // Get Bits from the material system pRenderContext->ReadPixels( 0, 0, width, height, pImage, IMAGE_FORMAT_RGB888 ); // allocate a buffer to write the tga into int iMaxTGASize = 1024 + (width * height * 4); void *pTGA = malloc( iMaxTGASize ); CUtlBuffer buffer( pTGA, iMaxTGASize ); if( !TGAWriter::WriteToBuffer( pImage, buffer, width, height, IMAGE_FORMAT_RGB888, IMAGE_FORMAT_RGB888 ) ) { Error( "Couldn't write bitmap data snapshot.\n" ); } free( pImage ); // async write to disk (this will take ownership of the memory) char szPathedFileName[_MAX_PATH]; Q_snprintf( szPathedFileName, sizeof(szPathedFileName), "//MOD/%s", pFilename ); filesystem->AsyncWrite( szPathedFileName, buffer.Base(), buffer.TellPut(), true ); // restore our previous state pRenderContext->PopRenderTargetAndViewport(); pRenderContext->MatrixMode( MATERIAL_PROJECTION ); pRenderContext->PopMatrix(); pRenderContext->MatrixMode( MATERIAL_VIEW ); pRenderContext->PopMatrix(); g_bRenderingScreenshot = false; } //----------------------------------------------------------------------------- // Purpose: takes a screenshot of the save game //----------------------------------------------------------------------------- void CViewRender::WriteSaveGameScreenshot( const char *pFilename ) { WriteSaveGameScreenshotOfSize( pFilename, SAVEGAME_SCREENSHOT_WIDTH, SAVEGAME_SCREENSHOT_HEIGHT ); } float ScaleFOVByWidthRatio( float fovDegrees, float ratio ) { float halfAngleRadians = fovDegrees * ( 0.5f * M_PI / 180.0f ); float t = tan( halfAngleRadians ); t *= ratio; float retDegrees = ( 180.0f / M_PI ) * atan( t ); return retDegrees * 2.0f; } //----------------------------------------------------------------------------- // Purpose: Sets view parameters for level overview mode // Input : *rect - //----------------------------------------------------------------------------- void CViewRender::SetUpOverView() { static int oldCRC = 0; m_View.m_bOrtho = true; float aspect = (float)m_View.width/(float)m_View.height; int size_y = 1024.0f * cl_leveloverview.GetFloat(); // scale factor, 1024 = OVERVIEW_MAP_SIZE int size_x = size_y * aspect; // standard screen aspect m_View.origin.x -= size_x / 2; m_View.origin.y += size_y / 2; m_View.m_OrthoLeft = 0; m_View.m_OrthoTop = -size_y; m_View.m_OrthoRight = size_x; m_View.m_OrthoBottom = 0; m_View.angles = QAngle( 90, 90, 0 ); // simple movement detector, show position if moved int newCRC = m_View.origin.x + m_View.origin.y + m_View.origin.z; if ( newCRC != oldCRC ) { Msg( "Overview: scale %.2f, pos_x %.0f, pos_y %.0f\n", cl_leveloverview.GetFloat(), m_View.origin.x, m_View.origin.y ); oldCRC = newCRC; } CMatRenderContextPtr pRenderContext( materials ); pRenderContext->ClearColor4ub( 0, 255, 0, 255 ); // render->DrawTopView( true ); } //----------------------------------------------------------------------------- // Purpose: Render current view into specified rectangle // Input : *rect - //----------------------------------------------------------------------------- void CViewRender::Render( vrect_t *rect ) { Assert(s_DbgSetupOrigin == m_View.origin); Assert(s_DbgSetupAngles == m_View.angles); VPROF_BUDGET( "CViewRender::Render", "CViewRender::Render" ); vrect_t vr = *rect; // Stub out the material system if necessary. CMatStubHandler matStub; bool drawViewModel; engine->EngineStats_BeginFrame(); // Assume normal vis m_bForceNoVis = false; float aspectRatio = engine->GetScreenAspectRatio() * 0.75f; // / (4/3) m_View.fov = ScaleFOVByWidthRatio( m_View.fov, aspectRatio ); m_View.fovViewmodel = ScaleFOVByWidthRatio( m_View.fovViewmodel, aspectRatio ); // Let the client mode hook stuff. g_pClientMode->PreRender(&m_View); g_pClientMode->AdjustEngineViewport( vr.x, vr.y, vr.width, vr.height ); ToolFramework_AdjustEngineViewport( vr.x, vr.y, vr.width, vr.height ); float flViewportScale = mat_viewportscale.GetFloat(); float engineAspectRatio = engine->GetScreenAspectRatio(); m_View.x = vr.x; m_View.y = vr.y; m_View.width = vr.width * flViewportScale; m_View.height = vr.height * flViewportScale; m_View.m_flAspectRatio = ( engineAspectRatio > 0.0f ) ? engineAspectRatio : ( (float)m_View.width / (float)m_View.height ); int nClearFlags = VIEW_CLEAR_DEPTH | VIEW_CLEAR_STENCIL; if( gl_clear_randomcolor.GetBool() ) { CMatRenderContextPtr pRenderContext( materials ); pRenderContext->ClearColor3ub( rand()%256, rand()%256, rand()%256 ); pRenderContext->ClearBuffers( true, false, false ); pRenderContext->Release(); } else if ( gl_clear.GetBool() ) { nClearFlags |= VIEW_CLEAR_COLOR; } // Determine if we should draw view model ( client mode override ) drawViewModel = g_pClientMode->ShouldDrawViewModel(); if ( cl_leveloverview.GetFloat() > 0 ) { SetUpOverView(); nClearFlags |= VIEW_CLEAR_COLOR; drawViewModel = false; } // Apply any player specific overrides C_BasePlayer *pPlayer = C_BasePlayer::GetLocalPlayer(); if ( pPlayer ) { // Override view model if necessary if ( !pPlayer->m_Local.m_bDrawViewmodel ) { drawViewModel = false; } } render->SetMainView( m_View.origin, m_View.angles ); int flags = RENDERVIEW_DRAWHUD; if ( drawViewModel ) { flags |= RENDERVIEW_DRAWVIEWMODEL; } RenderView( m_View, nClearFlags, flags ); g_pClientMode->PostRender(); engine->EngineStats_EndFrame(); #if !defined( _X360 ) // Stop stubbing the material system so we can see the budget panel matStub.End(); #endif CViewSetup view2d; // Draw all of the UI stuff "fullscreen" view2d.x = rect->x; view2d.y = rect->y; view2d.width = rect->width; view2d.height = rect->height; render->Push2DView( view2d, 0, NULL, GetFrustum() ); render->VGui_Paint( PAINT_UIPANELS ); render->PopView( GetFrustum() ); } static void GetPos( const CCommand &args, Vector &vecOrigin, QAngle &angles ) { vecOrigin = MainViewOrigin(); angles = MainViewAngles(); if ( args.ArgC() == 2 && atoi( args[1] ) == 2 ) { C_BasePlayer *pPlayer = C_BasePlayer::GetLocalPlayer(); if ( pPlayer ) { vecOrigin = pPlayer->GetAbsOrigin(); angles = pPlayer->GetAbsAngles(); } } } CON_COMMAND( spec_pos, "dump position and angles to the console" ) { Vector vecOrigin; QAngle angles; GetPos( args, vecOrigin, angles ); Warning( "spec_goto %.1f %.1f %.1f %.1f %.1f\n", vecOrigin.x, vecOrigin.y, vecOrigin.z, angles.x, angles.y ); } CON_COMMAND( getpos, "dump position and angles to the console" ) { Vector vecOrigin; QAngle angles; GetPos( args, vecOrigin, angles ); const char *pCommand1 = "setpos"; const char *pCommand2 = "setang"; if ( args.ArgC() == 2 && atoi( args[1] ) == 2 ) { pCommand1 = "setpos_exact"; pCommand2 = "setang_exact"; } Warning( "%s %f %f %f;", pCommand1, vecOrigin.x, vecOrigin.y, vecOrigin.z ); Warning( "%s %f %f %f\n", pCommand2, angles.x, angles.y, angles.z ); }