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https://github.com/nillerusr/source-engine.git
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501 lines
14 KiB
C++
501 lines
14 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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#include "cbase.h"
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#include "c_sprite.h"
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#include "model_types.h"
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#include "iviewrender.h"
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#include "view.h"
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#include "enginesprite.h"
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#include "engine/ivmodelinfo.h"
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#include "util_shared.h"
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#include "tier0/vprof.h"
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#include "materialsystem/imaterial.h"
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#include "materialsystem/imaterialvar.h"
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#include "view_shared.h"
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#include "viewrender.h"
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#include "tier1/KeyValues.h"
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#include "toolframework/itoolframework.h"
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#include "toolframework_client.h"
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// memdbgon must be the last include file in a .cpp file!!!
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#include "tier0/memdbgon.h"
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ConVar r_drawsprites( "r_drawsprites", "1", FCVAR_CHEAT );
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//-----------------------------------------------------------------------------
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// Purpose: Generic sprite model renderer
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// Input : *baseentity -
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// *psprite -
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// fscale -
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// frame -
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// rendermode -
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// r -
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// g -
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// b -
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// a -
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// forward -
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// right -
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// up -
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//-----------------------------------------------------------------------------
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static unsigned int s_nHDRColorScaleCache = 0;
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void DrawSpriteModel( IClientEntity *baseentity, CEngineSprite *psprite, const Vector &origin, float fscale, float frame,
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int rendermode, int r, int g, int b, int a, const Vector& forward, const Vector& right, const Vector& up, float flHDRColorScale )
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{
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float scale;
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IMaterial *material;
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// don't even bother culling, because it's just a single
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// polygon without a surface cache
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if ( fscale > 0 )
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scale = fscale;
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else
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scale = 1.0f;
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if ( rendermode == kRenderNormal )
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{
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render->SetBlend( 1.0f );
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}
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material = psprite->GetMaterial( (RenderMode_t)rendermode, frame );
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if ( !material )
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return;
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CMatRenderContextPtr pRenderContext( materials );
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if ( ShouldDrawInWireFrameMode() || r_drawsprites.GetInt() == 2 )
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{
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IMaterial *pMaterial = materials->FindMaterial( "debug/debugspritewireframe", TEXTURE_GROUP_OTHER );
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pRenderContext->Bind( pMaterial, NULL );
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}
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else
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{
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pRenderContext->Bind( material, (IClientRenderable*)baseentity );
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}
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unsigned char color[4];
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color[0] = r;
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color[1] = g;
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color[2] = b;
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color[3] = a;
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IMaterialVar *pHDRColorScaleVar = material->FindVarFast( "$HDRCOLORSCALE", &s_nHDRColorScaleCache );
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if( pHDRColorScaleVar )
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{
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pHDRColorScaleVar->SetVecValue( flHDRColorScale, flHDRColorScale, flHDRColorScale );
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}
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Vector point;
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IMesh* pMesh = pRenderContext->GetDynamicMesh();
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CMeshBuilder meshBuilder;
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meshBuilder.Begin( pMesh, MATERIAL_QUADS, 1 );
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Vector vec_a;
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Vector vec_b;
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Vector vec_c;
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Vector vec_d;
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// isolate common terms
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VectorMA( origin, psprite->GetDown() * scale, up, vec_a );
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VectorScale( right, psprite->GetLeft() * scale, vec_b );
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VectorMA( origin, psprite->GetUp() * scale, up, vec_c );
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VectorScale( right, psprite->GetRight() * scale, vec_d );
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float flMinU, flMinV, flMaxU, flMaxV;
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psprite->GetTexCoordRange( &flMinU, &flMinV, &flMaxU, &flMaxV );
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meshBuilder.Color4ubv( color );
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meshBuilder.TexCoord2f( 0, flMinU, flMaxV );
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VectorAdd( vec_a, vec_b, point );
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meshBuilder.Position3fv( point.Base() );
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meshBuilder.AdvanceVertex();
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meshBuilder.Color4ubv( color );
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meshBuilder.TexCoord2f( 0, flMinU, flMinV );
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VectorAdd( vec_c, vec_b, point );
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meshBuilder.Position3fv( point.Base() );
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meshBuilder.AdvanceVertex();
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meshBuilder.Color4ubv( color );
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meshBuilder.TexCoord2f( 0, flMaxU, flMinV );
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VectorAdd( vec_c, vec_d, point );
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meshBuilder.Position3fv( point.Base() );
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meshBuilder.AdvanceVertex();
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meshBuilder.Color4ubv( color );
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meshBuilder.TexCoord2f( 0, flMaxU, flMaxV );
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VectorAdd( vec_a, vec_d, point );
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meshBuilder.Position3fv( point.Base() );
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meshBuilder.AdvanceVertex();
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meshBuilder.End();
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pMesh->Draw();
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}
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//-----------------------------------------------------------------------------
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// Purpose: Determine glow brightness/scale based on distance to render origin and trace results
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// Input : entorigin -
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// rendermode -
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// renderfx -
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// alpha -
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// pscale - Pointer to the value for scale, will be changed based on distance and rendermode.
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//-----------------------------------------------------------------------------
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float StandardGlowBlend( const pixelvis_queryparams_t ¶ms, pixelvis_handle_t *queryHandle, int rendermode, int renderfx, int alpha, float *pscale )
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{
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float dist;
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float brightness;
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brightness = PixelVisibility_FractionVisible( params, queryHandle );
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if ( brightness <= 0.0f )
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{
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return 0.0f;
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}
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dist = GlowSightDistance( params.position, false );
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if ( dist <= 0.0f )
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{
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return 0.0f;
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}
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if ( renderfx == kRenderFxNoDissipation )
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{
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return (float)alpha * (1.0f/255.0f) * brightness;
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}
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// UNDONE: Tweak these magic numbers (1200 - distance at full brightness)
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float fadeOut = (1200.0f*1200.0f) / (dist*dist);
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fadeOut = clamp( fadeOut, 0.0f, 1.0f );
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if (rendermode != kRenderWorldGlow)
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{
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// Make the glow fixed size in screen space, taking into consideration the scale setting.
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if ( *pscale == 0.0f )
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{
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*pscale = 1.0f;
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}
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*pscale *= dist * (1.0f/200.0f);
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}
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return fadeOut * brightness;
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}
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static float SpriteAspect( CEngineSprite *pSprite )
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{
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if ( pSprite )
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{
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float x = fabsf(pSprite->GetRight() - pSprite->GetLeft());
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float y = fabsf(pSprite->GetDown() - pSprite->GetUp());
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if ( y != 0 && x != 0 )
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{
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return x / y;
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}
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}
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return 1.0f;
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}
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float C_SpriteRenderer::GlowBlend( CEngineSprite *psprite, const Vector& entorigin, int rendermode, int renderfx, int alpha, float *pscale )
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{
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pixelvis_queryparams_t params;
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float aspect = SpriteAspect(psprite);
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params.Init( entorigin, PIXELVIS_DEFAULT_PROXY_SIZE, aspect );
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return StandardGlowBlend( params, &m_queryHandle, rendermode, renderfx, alpha, pscale );
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}
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// since sprites can network down a glow proxy size, handle that here
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float CSprite::GlowBlend( CEngineSprite *psprite, const Vector& entorigin, int rendermode, int renderfx, int alpha, float *pscale )
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{
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pixelvis_queryparams_t params;
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float aspect = SpriteAspect(psprite);
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params.Init( entorigin, m_flGlowProxySize, aspect );
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return StandardGlowBlend( params, &m_queryHandle, rendermode, renderfx, alpha, pscale );
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}
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//-----------------------------------------------------------------------------
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// Purpose: Determine sprite orientation axes
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// Input : type -
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// forward -
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// right -
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// up -
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//-----------------------------------------------------------------------------
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void C_SpriteRenderer::GetSpriteAxes( SPRITETYPE type,
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const Vector& origin,
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const QAngle& angles,
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Vector& forward,
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Vector& right,
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Vector& up )
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{
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int i;
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float dot, angle, sr, cr;
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Vector tvec;
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// Automatically roll parallel sprites if requested
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if ( angles[2] != 0 && type == SPR_VP_PARALLEL )
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{
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type = SPR_VP_PARALLEL_ORIENTED;
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}
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switch( type )
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{
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case SPR_FACING_UPRIGHT:
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{
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// generate the sprite's axes, with vup straight up in worldspace, and
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// r_spritedesc.vright perpendicular to modelorg.
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// This will not work if the view direction is very close to straight up or
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// down, because the cross product will be between two nearly parallel
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// vectors and starts to approach an undefined state, so we don't draw if
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// the two vectors are less than 1 degree apart
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tvec[0] = -origin[0];
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tvec[1] = -origin[1];
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tvec[2] = -origin[2];
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VectorNormalize (tvec);
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dot = tvec[2]; // same as DotProduct (tvec, r_spritedesc.vup) because
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// r_spritedesc.vup is 0, 0, 1
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if ((dot > 0.999848f) || (dot < -0.999848f)) // cos(1 degree) = 0.999848
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return;
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up[0] = 0;
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up[1] = 0;
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up[2] = 1;
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right[0] = tvec[1];
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// CrossProduct(r_spritedesc.vup, -modelorg,
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right[1] = -tvec[0];
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// r_spritedesc.vright)
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right[2] = 0;
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VectorNormalize (right);
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forward[0] = -right[1];
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forward[1] = right[0];
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forward[2] = 0;
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// CrossProduct (r_spritedesc.vright, r_spritedesc.vup,
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// r_spritedesc.vpn)
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}
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break;
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case SPR_VP_PARALLEL:
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{
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// generate the sprite's axes, completely parallel to the viewplane. There
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// are no problem situations, because the sprite is always in the same
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// position relative to the viewer
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for (i=0 ; i<3 ; i++)
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{
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up[i] = CurrentViewUp()[i];
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right[i] = CurrentViewRight()[i];
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forward[i] = CurrentViewForward()[i];
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}
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}
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break;
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case SPR_VP_PARALLEL_UPRIGHT:
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{
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// generate the sprite's axes, with g_vecVUp straight up in worldspace, and
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// r_spritedesc.vright parallel to the viewplane.
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// This will not work if the view direction is very close to straight up or
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// down, because the cross product will be between two nearly parallel
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// vectors and starts to approach an undefined state, so we don't draw if
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// the two vectors are less than 1 degree apart
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dot = CurrentViewForward()[2]; // same as DotProduct (vpn, r_spritedesc.g_vecVUp) because
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// r_spritedesc.vup is 0, 0, 1
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if ((dot > 0.999848f) || (dot < -0.999848f)) // cos(1 degree) = 0.999848
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return;
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up[0] = 0;
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up[1] = 0;
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up[2] = 1;
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right[0] = CurrentViewForward()[1];
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// CrossProduct (r_spritedesc.vup, vpn,
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right[1] = -CurrentViewForward()[0]; // r_spritedesc.vright)
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right[2] = 0;
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VectorNormalize (right);
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forward[0] = -right[1];
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forward[1] = right[0];
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forward[2] = 0;
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// CrossProduct (r_spritedesc.vright, r_spritedesc.vup,
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// r_spritedesc.vpn)
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}
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break;
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case SPR_ORIENTED:
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{
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// generate the sprite's axes, according to the sprite's world orientation
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AngleVectors( angles, &forward, &right, &up );
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}
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break;
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case SPR_VP_PARALLEL_ORIENTED:
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{
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// generate the sprite's axes, parallel to the viewplane, but rotated in
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// that plane around the center according to the sprite entity's roll
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// angle. So vpn stays the same, but vright and vup rotate
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angle = angles[ROLL] * (M_PI*2.0f/360.0f);
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SinCos( angle, &sr, &cr );
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for (i=0 ; i<3 ; i++)
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{
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forward[i] = CurrentViewForward()[i];
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right[i] = CurrentViewRight()[i] * cr + CurrentViewUp()[i] * sr;
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up[i] = CurrentViewRight()[i] * -sr + CurrentViewUp()[i] * cr;
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}
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}
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break;
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default:
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Warning( "GetSpriteAxes: Bad sprite type %d\n", type );
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break;
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}
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}
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//-----------------------------------------------------------------------------
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// Purpose:
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// Output : int
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//-----------------------------------------------------------------------------
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int C_SpriteRenderer::DrawSprite(
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IClientEntity *entity,
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const model_t *model,
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const Vector& origin,
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const QAngle& angles,
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float frame,
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IClientEntity *attachedto,
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int attachmentindex,
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int rendermode,
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int renderfx,
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int alpha,
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int r,
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int g,
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int b,
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float scale,
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float flHDRColorScale
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)
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{
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VPROF_BUDGET( "C_SpriteRenderer::DrawSprite", VPROF_BUDGETGROUP_PARTICLE_RENDERING );
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if ( !r_drawsprites.GetBool() || !model || modelinfo->GetModelType( model ) != mod_sprite )
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{
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return 0;
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}
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// Get extra data
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CEngineSprite *psprite = (CEngineSprite *)modelinfo->GetModelExtraData( model );
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if ( !psprite )
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{
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return 0;
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}
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Vector effect_origin;
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VectorCopy( origin, effect_origin );
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// Use attachment point
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if ( attachedto )
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{
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C_BaseEntity *ent = attachedto->GetBaseEntity();
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if ( ent )
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{
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// don't draw viewmodel effects in reflections
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if ( CurrentViewID() == VIEW_REFLECTION )
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{
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int group = ent->GetRenderGroup();
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if ( group == RENDER_GROUP_VIEW_MODEL_TRANSLUCENT || group == RENDER_GROUP_VIEW_MODEL_OPAQUE )
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return 0;
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}
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QAngle temp;
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ent->GetAttachment( attachmentindex, effect_origin, temp );
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}
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}
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if ( rendermode != kRenderNormal )
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{
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float blend = render->GetBlend();
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// kRenderGlow and kRenderWorldGlow have a special blending function
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if (( rendermode == kRenderGlow ) || ( rendermode == kRenderWorldGlow ))
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{
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blend *= GlowBlend( psprite, effect_origin, rendermode, renderfx, alpha, &scale );
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// Fade out the sprite depending on distance from the view origin.
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r *= blend;
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g *= blend;
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b *= blend;
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}
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render->SetBlend( blend );
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if ( blend <= 0.0f )
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{
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return 0;
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}
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}
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// Get orthonormal basis
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Vector forward, right, up;
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GetSpriteAxes( (SPRITETYPE)psprite->GetOrientation(), origin, angles, forward, right, up );
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// Draw
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DrawSpriteModel(
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entity,
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psprite,
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effect_origin,
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scale,
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frame,
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rendermode,
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r,
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g,
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b,
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alpha,
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forward, right, up, flHDRColorScale );
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return 1;
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}
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//-----------------------------------------------------------------------------
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// Purpose:
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//-----------------------------------------------------------------------------
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void CSprite::GetToolRecordingState( KeyValues *msg )
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{
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if ( !ToolsEnabled() )
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return;
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VPROF_BUDGET( "CSprite::GetToolRecordingState", VPROF_BUDGETGROUP_TOOLS );
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BaseClass::GetToolRecordingState( msg );
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// Use attachment point
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if ( m_hAttachedToEntity )
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{
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C_BaseEntity *ent = m_hAttachedToEntity->GetBaseEntity();
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if ( ent )
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{
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BaseEntityRecordingState_t *pState = (BaseEntityRecordingState_t*)msg->GetPtr( "baseentity" );
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// override position if we're driven by an attachment
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QAngle temp;
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pState->m_vecRenderOrigin = GetAbsOrigin();
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ent->GetAttachment( m_nAttachment, pState->m_vecRenderOrigin, temp );
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// override viewmodel if we're driven by an attachment
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bool bViewModel = dynamic_cast< C_BaseViewModel* >( ent ) != NULL;
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msg->SetInt( "viewmodel", bViewModel );
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}
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}
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float renderscale = GetRenderScale();
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if ( m_bWorldSpaceScale )
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{
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CEngineSprite *psprite = ( CEngineSprite * )modelinfo->GetModelExtraData( GetModel() );
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float flMinSize = MIN( psprite->GetWidth(), psprite->GetHeight() );
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renderscale /= flMinSize;
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}
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// sprite params
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static SpriteRecordingState_t state;
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state.m_flRenderScale = renderscale;
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state.m_flFrame = m_flFrame;
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state.m_flProxyRadius = m_flGlowProxySize;
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state.m_nRenderMode = GetRenderMode();
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state.m_nRenderFX = m_nRenderFX;
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state.m_Color.SetColor( m_clrRender.GetR(), m_clrRender.GetG(), m_clrRender.GetB(), GetRenderBrightness() );
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msg->SetPtr( "sprite", &state );
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}
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