Counter Strike : Global Offensive Source Code
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//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
// $NoKeywords: $
//=============================================================================//
#include "cbase.h"
#include "beamdraw.h"
#include "enginesprite.h"
#include "iviewrender_beams.h"
#include "view.h"
#include "iviewrender.h"
#include "engine/ivmodelinfo.h"
#include "fx_line.h"
#include "materialsystem/imaterialvar.h"
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
extern ConVar r_drawsprites;
extern ConVar r_DrawBeams;
static IMaterial *g_pBeamWireframeMaterial;
//-----------------------------------------------------------------------------
// Purpose: Retrieve sprite object and set it up for rendering
// Input : *pSpriteModel -
// frame -
// rendermode -
// Output : CEngineSprite
//-----------------------------------------------------------------------------
CEngineSprite *Draw_SetSpriteTexture( const model_t *pSpriteModel, int frame, int rendermode )
{
CEngineSprite *psprite;
IMaterial *material;
psprite = ( CEngineSprite * )modelinfo->GetModelExtraData( pSpriteModel );
Assert( psprite );
material = psprite->GetMaterial( (RenderMode_t)rendermode, frame );
if( !material )
return NULL;
CMatRenderContextPtr pRenderContext( materials );
if ( ShouldDrawInWireFrameMode() || r_DrawBeams.GetInt() == 2 )
{
if ( !g_pBeamWireframeMaterial )
g_pBeamWireframeMaterial = materials->FindMaterial( "debug/debugwireframevertexcolor", TEXTURE_GROUP_OTHER );
pRenderContext->Bind( g_pBeamWireframeMaterial, NULL );
return psprite;
}
pRenderContext->Bind( material );
return psprite;
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : pMaterial -
// source -
// color -
//-----------------------------------------------------------------------------
void DrawHalo(IMaterial* pMaterial, const Vector& source, float scale, float const* color, float flHDRColorScale )
{
static unsigned int nHDRColorScaleCache = 0;
Vector point, screen;
if( pMaterial )
{
IMaterialVar *pHDRColorScaleVar = pMaterial->FindVarFast( "$hdrcolorscale", &nHDRColorScaleCache );
if( pHDRColorScaleVar )
{
pHDRColorScaleVar->SetFloatValue( flHDRColorScale );
}
}
CMatRenderContextPtr pRenderContext( materials );
IMesh* pMesh = pRenderContext->GetDynamicMesh( );
CMeshBuilder meshBuilder;
meshBuilder.Begin( pMesh, MATERIAL_QUADS, 1 );
// Transform source into screen space
ScreenTransform( source, screen );
meshBuilder.Color3fv (color);
meshBuilder.TexCoord2f (0, 0, 1);
VectorMA (source, -scale, CurrentViewUp(), point);
VectorMA (point, -scale, CurrentViewRight(), point);
meshBuilder.Position3fv (point.Base());
meshBuilder.AdvanceVertex();
meshBuilder.Color3fv (color);
meshBuilder.TexCoord2f (0, 0, 0);
VectorMA (source, scale, CurrentViewUp(), point);
VectorMA (point, -scale, CurrentViewRight(), point);
meshBuilder.Position3fv (point.Base());
meshBuilder.AdvanceVertex();
meshBuilder.Color3fv (color);
meshBuilder.TexCoord2f (0, 1, 0);
VectorMA (source, scale, CurrentViewUp(), point);
VectorMA (point, scale, CurrentViewRight(), point);
meshBuilder.Position3fv (point.Base());
meshBuilder.AdvanceVertex();
meshBuilder.Color3fv (color);
meshBuilder.TexCoord2f (0, 1, 1);
VectorMA (source, -scale, CurrentViewUp(), point);
VectorMA (point, scale, CurrentViewRight(), point);
meshBuilder.Position3fv (point.Base());
meshBuilder.AdvanceVertex();
meshBuilder.End();
pMesh->Draw();
}
//-----------------------------------------------------------------------------
// Assumes the material has already been bound
//-----------------------------------------------------------------------------
void DrawSprite( const Vector &vecOrigin, float flWidth, float flHeight, color32 color )
{
unsigned char pColor[4] = { color.r, color.g, color.b, color.a };
// Generate half-widths
flWidth *= 0.5f;
flHeight *= 0.5f;
// Compute direction vectors for the sprite
Vector fwd, right( 1, 0, 0 ), up( 0, 1, 0 );
VectorSubtract( CurrentViewOrigin(), vecOrigin, fwd );
float flDist = VectorNormalize( fwd );
if (flDist >= 1e-3)
{
CrossProduct( CurrentViewUp(), fwd, right );
flDist = VectorNormalize( right );
if (flDist >= 1e-3)
{
CrossProduct( fwd, right, up );
}
else
{
// In this case, fwd == g_vecVUp, it's right above or
// below us in screen space
CrossProduct( fwd, CurrentViewRight(), up );
VectorNormalize( up );
CrossProduct( up, fwd, right );
}
}
CMeshBuilder meshBuilder;
Vector point;
CMatRenderContextPtr pRenderContext( materials );
IMesh* pMesh = pRenderContext->GetDynamicMesh( );
meshBuilder.Begin( pMesh, MATERIAL_QUADS, 1 );
meshBuilder.Color4ubv (pColor);
meshBuilder.TexCoord2f (0, 0, 1);
VectorMA (vecOrigin, -flHeight, up, point);
VectorMA (point, -flWidth, right, point);
meshBuilder.Position3fv (point.Base());
meshBuilder.AdvanceVertex();
meshBuilder.Color4ubv (pColor);
meshBuilder.TexCoord2f (0, 0, 0);
VectorMA (vecOrigin, flHeight, up, point);
VectorMA (point, -flWidth, right, point);
meshBuilder.Position3fv (point.Base());
meshBuilder.AdvanceVertex();
meshBuilder.Color4ubv (pColor);
meshBuilder.TexCoord2f (0, 1, 0);
VectorMA (vecOrigin, flHeight, up, point);
VectorMA (point, flWidth, right, point);
meshBuilder.Position3fv (point.Base());
meshBuilder.AdvanceVertex();
meshBuilder.Color4ubv (pColor);
meshBuilder.TexCoord2f (0, 1, 1);
VectorMA (vecOrigin, -flHeight, up, point);
VectorMA (point, flWidth, right, point);
meshBuilder.Position3fv (point.Base());
meshBuilder.AdvanceVertex();
meshBuilder.End();
pMesh->Draw();
}
//-----------------------------------------------------------------------------
// Compute vectors perpendicular to the beam
//-----------------------------------------------------------------------------
static void ComputeBeamPerpendicular( const Vector &vecBeamDelta, Vector *pPerp )
{
// Direction in worldspace of the center of the beam
Vector vecBeamCenter = vecBeamDelta;
VectorNormalize( vecBeamCenter );
CrossProduct( CurrentViewForward(), vecBeamCenter, *pPerp );
VectorNormalize( *pPerp );
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : noise_divisions -
// *prgNoise -
// *spritemodel -
// frame -
// rendermode -
// source -
// delta -
// flags -
// *color -
// fadescale -
//-----------------------------------------------------------------------------
void DrawSegs( int noise_divisions, float *prgNoise, const model_t* spritemodel,
float frame, int rendermode, const Vector& source, const Vector& delta,
float startWidth, float endWidth, float scale, float freq, float speed, int segments,
int flags, float* color, float fadeLength, float flHDRColorScale )
{
int i, noiseIndex, noiseStep;
float div, length, fraction, factor, vLast, vStep, brightness;
Assert( fadeLength >= 0.0f );
CEngineSprite *pSprite = Draw_SetSpriteTexture( spritemodel, frame, rendermode );
if ( !pSprite )
return;
if ( segments < 2 )
return;
IMaterial *pMaterial = pSprite->GetMaterial( (RenderMode_t)rendermode );
if( pMaterial )
{
static unsigned int nHDRColorScaleCache = 0;
IMaterialVar *pHDRColorScaleVar = pMaterial->FindVarFast( "$hdrcolorscale", &nHDRColorScaleCache );
if( pHDRColorScaleVar )
{
pHDRColorScaleVar->SetFloatValue( flHDRColorScale );
}
}
length = VectorLength( delta );
float flMaxWidth = MAX(startWidth, endWidth) * 0.5f;
div = 1.0 / (segments-1);
if ( length*div < flMaxWidth * 1.414 )
{
// Here, we have too many segments; we could get overlap... so lets have less segments
segments = (int)(length / (flMaxWidth * 1.414)) + 1;
if ( segments < 2 )
{
segments = 2;
}
}
if ( segments > noise_divisions ) // UNDONE: Allow more segments?
{
segments = noise_divisions;
}
div = 1.0 / (segments-1);
length *= 0.01;
// UNDONE: Expose texture length scale factor to control "fuzziness"
if ( flags & FBEAM_NOTILE )
{
// Don't tile
vStep = div;
}
else
{
// Texture length texels per space pixel
vStep = length*div;
}
// UNDONE: Expose this paramter as well(3.5)? Texture scroll rate along beam
vLast = fmod(freq*speed,1); // Scroll speed 3.5 -- initial texture position, scrolls 3.5/sec (1.0 is entire texture)
if ( flags & FBEAM_SINENOISE )
{
if ( segments < 16 )
{
segments = 16;
div = 1.0 / (segments-1);
}
scale *= 100;
length = segments * (1.0/10);
}
else
{
scale *= length;
}
// Iterator to resample noise waveform (it needs to be generated in powers of 2)
noiseStep = (int)((float)(noise_divisions-1) * div * 65536.0f);
noiseIndex = 0;
if ( flags & FBEAM_SINENOISE )
{
noiseIndex = 0;
}
brightness = 1.0;
if ( flags & FBEAM_SHADEIN )
{
brightness = 0;
}
// What fraction of beam should be faded
Assert( fadeLength >= 0.0f );
float fadeFraction = fadeLength/ delta.Length();
// BUGBUG: This code generates NANs when fadeFraction is zero! REVIST!
fadeFraction = clamp(fadeFraction,1e-6,1);
// Choose two vectors that are perpendicular to the beam
Vector perp1;
ComputeBeamPerpendicular( delta, &perp1 );
// Specify all the segments.
CMatRenderContextPtr pRenderContext( g_pMaterialSystem );
CBeamSegDraw segDraw;
segDraw.Start( pRenderContext, segments, NULL );
for ( i = 0; i < segments; i++ )
{
Assert( noiseIndex < (noise_divisions<<16) );
BeamSeg_t curSeg;
fraction = i * div;
// Fade in our out beam to fadeLength
if ( (flags & FBEAM_SHADEIN) && (flags & FBEAM_SHADEOUT) )
{
if (fraction < 0.5)
{
brightness = 2*(fraction/fadeFraction);
}
else
{
brightness = 2*(1.0 - (fraction/fadeFraction));
}
}
else if ( flags & FBEAM_SHADEIN )
{
brightness = fraction/fadeFraction;
}
else if ( flags & FBEAM_SHADEOUT )
{
brightness = 1.0 - (fraction/fadeFraction);
}
// clamps
if (brightness < 0 )
{
brightness = 0;
}
else if (brightness > 1)
{
brightness = 1;
}
Vector vecTemp;
VectorScale( *((Vector*)color), brightness, vecTemp );
curSeg.SetColor( vecTemp, 1.0f );
// UNDONE: Make this a spline instead of just a line?
VectorMA( source, fraction, delta, curSeg.m_vPos );
// Distort using noise
if ( scale != 0 )
{
factor = prgNoise[noiseIndex>>16] * scale;
if ( flags & FBEAM_SINENOISE )
{
float s, c;
SinCos( fraction*M_PI*length + freq, &s, &c );
VectorMA( curSeg.m_vPos, factor * s, CurrentViewUp(), curSeg.m_vPos );
// Rotate the noise along the perpendicluar axis a bit to keep the bolt from looking diagonal
VectorMA( curSeg.m_vPos, factor * c, CurrentViewRight(), curSeg.m_vPos );
}
else
{
VectorMA( curSeg.m_vPos, factor, perp1, curSeg.m_vPos );
}
}
// Specify the next segment.
if( endWidth == startWidth )
{
curSeg.m_flWidth = startWidth * 2;
}
else
{
curSeg.m_flWidth = ((fraction*(endWidth-startWidth))+startWidth) * 2;
}
curSeg.m_flTexCoord = vLast;
segDraw.NextSeg( &curSeg );
vLast += vStep; // Advance texture scroll (v axis only)
noiseIndex += noiseStep;
}
segDraw.End();
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void CalcSegOrigin( Vector *vecOut, int iPoint, int noise_divisions, float *prgNoise,
const Vector &source, const Vector& delta, const Vector &perp, int segments,
float freq, float scale, float fraction, int flags )
{
Assert( segments > 1 );
float factor;
float length = VectorLength( delta ) * 0.01;
float div = 1.0 / (segments-1);
// Iterator to resample noise waveform (it needs to be generated in powers of 2)
int noiseStep = (int)((float)(noise_divisions-1) * div * 65536.0f);
int noiseIndex = (iPoint) * noiseStep;
// Sine noise beams have different length calculations
if ( flags & FBEAM_SINENOISE )
{
length = segments * (1.0/10);
noiseIndex = 0;
}
// UNDONE: Make this a spline instead of just a line?
VectorMA( source, fraction, delta, *vecOut );
// Distort using noise
if ( scale != 0 )
{
factor = prgNoise[noiseIndex>>16] * scale;
if ( flags & FBEAM_SINENOISE )
{
float s, c;
SinCos( fraction*M_PI*length + freq, &s, &c );
VectorMA( *vecOut, factor * s, CurrentViewUp(), *vecOut );
// Rotate the noise along the perpendicular axis a bit to keep the bolt from looking diagonal
VectorMA( *vecOut, factor * c, CurrentViewRight(), *vecOut );
}
else
{
VectorMA( *vecOut, factor, perp, *vecOut );
}
}
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : noise_divisions -
// *prgNoise -
// *spritemodel -
// frame -
// rendermode -
// source -
// delta -
// flags -
// *color -
// fadescale -
//-----------------------------------------------------------------------------
void DrawTeslaSegs( int noise_divisions, float *prgNoise, const model_t* spritemodel,
float frame, int rendermode, const Vector& source, const Vector& delta,
float startWidth, float endWidth, float scale, float freq, float speed, int segments,
int flags, float* color, float fadeLength, float flHDRColorScale )
{
int i;
float div, length, fraction, vLast, vStep, brightness;
Assert( fadeLength >= 0.0f );
CEngineSprite *pSprite = Draw_SetSpriteTexture( spritemodel, frame, rendermode );
if ( !pSprite )
return;
if ( segments < 2 )
return;
IMaterial *pMaterial = pSprite->GetMaterial( (RenderMode_t)rendermode );
if( pMaterial )
{
static unsigned int nHDRColorScaleCache = 0;
IMaterialVar *pHDRColorScaleVar = pMaterial->FindVarFast( "$hdrcolorscale", &nHDRColorScaleCache );
if( pHDRColorScaleVar )
{
pHDRColorScaleVar->SetFloatValue( flHDRColorScale );
}
}
if ( segments > noise_divisions ) // UNDONE: Allow more segments?
segments = noise_divisions;
length = VectorLength( delta ) * 0.01;
div = 1.0 / (segments-1);
// UNDONE: Expose texture length scale factor to control "fuzziness"
vStep = length*div; // Texture length texels per space pixel
// UNDONE: Expose this paramter as well(3.5)? Texture scroll rate along beam
vLast = fmod(freq*speed,1); // Scroll speed 3.5 -- initial texture position, scrolls 3.5/sec (1.0 is entire texture)
brightness = 1.0;
if ( flags & FBEAM_SHADEIN )
brightness = 0;
// What fraction of beam should be faded
Assert( fadeLength >= 0.0f );
float fadeFraction = fadeLength/ delta.Length();
// BUGBUG: This code generates NANs when fadeFraction is zero! REVIST!
fadeFraction = clamp(fadeFraction,1e-6,1);
Vector perp;
ComputeBeamPerpendicular( delta, &perp );
// Specify all the segments.
CMatRenderContextPtr pRenderContext( g_pMaterialSystem );
CBeamSegDraw segDraw;
segDraw.Start( pRenderContext, segments, NULL );
// Keep track of how many times we've branched
int iBranches = 0;
Vector vecStart, vecEnd;
float flWidth = 0;
float flEndWidth = 0;
for ( i = 0; i < segments; i++ )
{
BeamSeg_t curSeg;
fraction = i * div;
// Fade in our out beam to fadeLength
if ( (flags & FBEAM_SHADEIN) && (flags & FBEAM_SHADEOUT) )
{
if (fraction < 0.5)
{
brightness = 2*(fraction/fadeFraction);
}
else
{
brightness = 2*(1.0 - (fraction/fadeFraction));
}
}
else if ( flags & FBEAM_SHADEIN )
{
brightness = fraction/fadeFraction;
}
else if ( flags & FBEAM_SHADEOUT )
{
brightness = 1.0 - (fraction/fadeFraction);
}
// clamps
if (brightness < 0 )
{
brightness = 0;
}
else if (brightness > 1)
{
brightness = 1;
}
Vector vecTemp;
VectorScale( *((Vector*)color), brightness, vecTemp );
curSeg.SetColor( vecTemp, 1.0f );
CalcSegOrigin( &curSeg.m_vPos, i, noise_divisions, prgNoise, source, delta, perp, segments, freq, scale, fraction, flags );
// Specify the next segment.
if( endWidth == startWidth )
curSeg.m_flWidth = startWidth * 2;
else
curSeg.m_flWidth = ((fraction*(endWidth-startWidth))+startWidth) * 2;
// Reduce the width by the current number of branches we've had
for ( int j = 0; i < iBranches; j++ )
{
curSeg.m_flWidth *= 0.5;
}
curSeg.m_flTexCoord = vLast;
segDraw.NextSeg( &curSeg );
vLast += vStep; // Advance texture scroll (v axis only)
// Now see if we'd like to branch here
// For now, always branch at the midpoint.
// We could branch randomly, and multiple times per beam
if ( i == (segments * 0.5) )
{
// Figure out what the new width would be
// Halve the width because the beam is breaking in two, and halve it again because width is doubled above
flWidth = curSeg.m_flWidth * 0.25;
if ( flWidth > 1 )
{
iBranches++;
// Get an endpoint for the new branch
vecStart = curSeg.m_vPos;
vecEnd = source + delta + (CurrentViewUp() * 32) + (CurrentViewRight() * 32);
vecEnd -= vecStart;
// Reduce the end width by the current number of branches we've had
flEndWidth = endWidth;
for ( int j = 0; i < iBranches; j++ )
{
flEndWidth *= 0.5;
}
}
}
}
segDraw.End();
// If we branched, draw the new beam too
if ( iBranches )
{
DrawTeslaSegs( noise_divisions, prgNoise, spritemodel, frame, rendermode,
vecStart, vecEnd, flWidth, flEndWidth, scale, freq, speed, segments,
flags, color, fadeLength, flHDRColorScale );
}
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : noise_divisions -
// *prgNoise -
// *beammodel -
// *halomodel -
// flHaloScale -
// startWidth -
// endWidth -
// scale -
// freq -
// speed -
// segments -
// * -
//-----------------------------------------------------------------------------
void DrawSplineSegs( int noise_divisions, float *prgNoise,
const model_t* beammodel, const model_t* halomodel, float flHaloScale,
float frame, int rendermode, int numAttachments, Vector* attachment,
float startWidth, float endWidth, float scale, float freq, float speed, int segments,
int flags, float* color, float fadeLength, float flHDRColorScale )
{
int noiseIndex, noiseStep;
float div, length, fraction, factor, vLast, vStep, brightness;
float scaledColor[3];
model_t *beamsprite = ( model_t *)beammodel;
model_t *halosprite = ( model_t *)halomodel;
CEngineSprite *pBeamSprite = Draw_SetSpriteTexture( beamsprite, frame, rendermode );
if ( !pBeamSprite )
return;
// Figure out the number of segments.
if ( segments < 2 )
return;
IMaterial *pMaterial = pBeamSprite->GetMaterial( (RenderMode_t)rendermode );
if( pMaterial )
{
static unsigned int nHDRColorScaleCache = 0;
IMaterialVar *pHDRColorScaleVar = pMaterial->FindVarFast( "$hdrcolorscale", &nHDRColorScaleCache );
if( pHDRColorScaleVar )
{
pHDRColorScaleVar->SetFloatValue( flHDRColorScale );
}
}
if ( segments > noise_divisions ) // UNDONE: Allow more segments?
segments = noise_divisions;
if ( flags & FBEAM_SINENOISE )
{
if ( segments < 16 )
segments = 16;
}
IMaterial *pBeamMaterial = pBeamSprite->GetMaterial( (RenderMode_t)rendermode );
CMatRenderContextPtr pRenderContext( g_pMaterialSystem );
CBeamSegDraw segDraw;
segDraw.Start( pRenderContext, (segments-1)*(numAttachments-1), pBeamMaterial );
CEngineSprite *pHaloSprite = (CEngineSprite *)modelinfo->GetModelExtraData( halosprite );
IMaterial *pHaloMaterial = NULL;
if ( pHaloSprite )
{
pHaloMaterial = pHaloSprite->GetMaterial( kRenderGlow );
}
//-----------------------------------------------------------
// Calculate widthStep if start and end width are different
//-----------------------------------------------------------
float widthStep;
if (startWidth != endWidth)
{
widthStep = (endWidth - startWidth)/numAttachments;
}
else
{
widthStep = 0;
}
// Calculate total length of beam
float flBeamLength = (attachment[0]-attachment[numAttachments-1]).Length();
// What fraction of beam should be faded
float fadeFraction = fadeLength/flBeamLength;
if (fadeFraction > 1)
{
fadeFraction = 1;
}
//---------------------------------------------------------------
// Go through each attachment drawing spline beams between them
//---------------------------------------------------------------
Vector vLastPoint(0,0,0);
Vector pPre; // attachment point before the current beam
Vector pStart; // start of current beam
Vector pEnd; // end of current beam
Vector pNext; // attachment point after the current beam
for (int j=0;j<numAttachments-1;j++)
{
if (j==0)
{
VectorCopy(attachment[0],pPre);
VectorCopy(pPre,vLastPoint);
}
else
{
VectorCopy(attachment[j-1],pPre);
}
VectorCopy(attachment[j], pStart);
VectorCopy(attachment[j+1], pEnd);
if (j+2 >= numAttachments-1)
{
VectorCopy(attachment[j+1],pNext);
}
else
{
VectorCopy(attachment[j+2],pNext);
}
Vector vDelta;
VectorSubtract(pEnd,pStart,vDelta);
length = VectorLength( vDelta ) * 0.01;
if ( length < 0.5 ) // Don't lose all of the noise/texture on short beams
length = 0.5;
div = 1.0 / (segments-1);
// UNDONE: Expose texture length scale factor to control "fuzziness"
vStep = length*div; // Texture length texels per space pixel
// UNDONE: Expose this paramter as well(3.5)? Texture scroll rate along beam
vLast = fmod(freq*speed,1); // Scroll speed 3.5 -- initial texture position, scrolls 3.5/sec (1.0 is entire texture)
if ( flags & FBEAM_SINENOISE )
{
scale = scale * 100;
length = segments * (1.0/10);
}
else
scale = scale * length;
// -----------------------------------------------------------------------------
// Iterator to resample noise waveform (it needs to be generated in powers of 2)
// -----------------------------------------------------------------------------
noiseStep = (int)((float)(noise_divisions-1) * div * 65536.0f);
noiseIndex = noiseStep;
if ( flags & FBEAM_SINENOISE )
noiseIndex = 0;
brightness = 1.0;
if ( flags & FBEAM_SHADEIN )
brightness = 0;
BeamSeg_t seg;
VectorScale( color, brightness, scaledColor );
seg.SetColor( scaledColor[0], scaledColor[1], scaledColor[2], 1.0f );
// -------------------------------------------------
// Calc start and end widths for this segment
// -------------------------------------------------
float startSegWidth = startWidth + (widthStep*j);
float endSegWidth = startWidth + (widthStep*(j+1));
// -------------------------------------------------
// Now draw each segment
// -------------------------------------------------
float fBestFraction = -1;
float bestDot = 0;
for (int i = 1; i < segments; i++ )
{
fraction = i * div;
// Fade in our out beam to fadeLength
// BUG BUG: should be based on total lengh of beam not this particular fraction
if ( flags & FBEAM_SHADEIN )
{
brightness = fraction/fadeFraction;
if (brightness > 1)
{
brightness = 1;
}
}
else if ( flags & FBEAM_SHADEOUT )
{
float fadeFraction = fadeLength/length;
brightness = 1.0 - (fraction/fadeFraction);
if (brightness < 0)
{
brightness = 0;
}
}
// -----------------------------------------------------------
// Calculate spline position
// -----------------------------------------------------------
Vector vTarget(0,0,0);
Catmull_Rom_Spline(pPre, pStart, pEnd, pNext, fraction, vTarget );
seg.m_vPos[0] = vTarget.x;
seg.m_vPos[1] = vTarget.y;
seg.m_vPos[2] = vTarget.z;
// --------------------------------------------------------------
// Keep track of segment most facing the player for halo effect
// --------------------------------------------------------------
if (pHaloMaterial)
{
Vector vBeamDir1;
VectorSubtract(seg.m_vPos,vLastPoint,vBeamDir1);
VectorNormalize(vBeamDir1);
Vector vLookDir;
VectorSubtract(CurrentViewOrigin(),seg.m_vPos,vLookDir);
VectorNormalize(vLookDir);
float dotpr = fabs(DotProduct(vBeamDir1,vLookDir));
static float thresh = 0.85;
if (dotpr > thresh && dotpr > bestDot)
{
bestDot = dotpr;
fBestFraction = fraction;
}
VectorCopy(seg.m_vPos,vLastPoint);
}
// ----------------------
// Distort using noise
// ----------------------
if ( scale != 0 )
{
factor = prgNoise[noiseIndex>>16] * scale;
if ( flags & FBEAM_SINENOISE )
{
float s, c;
SinCos( fraction*M_PI*length + freq, &s, &c );
VectorMA( seg.m_vPos, factor * s, CurrentViewUp(), seg.m_vPos );
// Rotate the noise along the perpendicluar axis a bit to keep the bolt from looking diagonal
VectorMA( seg.m_vPos, factor * c, CurrentViewRight(), seg.m_vPos );
}
else
{
VectorMA( seg.m_vPos, factor, CurrentViewUp(), seg.m_vPos );
// Rotate the noise along the perpendicluar axis a bit to keep the bolt from looking diagonal
factor = prgNoise[noiseIndex>>16] * scale * cos(fraction*M_PI*3+freq);
VectorMA( seg.m_vPos, factor, CurrentViewRight(), seg.m_vPos );
}
}
// Scale width if non-zero spread
if (startWidth != endWidth)
seg.m_flWidth = ((fraction*(endSegWidth-startSegWidth))+startSegWidth)*2;
else
seg.m_flWidth = startWidth*2;
seg.m_flTexCoord = vLast;
segDraw.NextSeg( &seg );
vLast += vStep; // Advance texture scroll (v axis only)
noiseIndex += noiseStep;
}
// --------------------------------------------------------------
// Draw halo on segment most facing the player
// --------------------------------------------------------------
if (false&&pHaloMaterial)
{
Vector vHaloPos(0,0,0);
if (bestDot != 0)
{
Catmull_Rom_Spline(pPre, pStart, pEnd, pNext, fBestFraction, vHaloPos);
}
else
{
Vector vBeamDir1;
VectorSubtract(pStart,pEnd,vBeamDir1);
VectorNormalize(vBeamDir1);
Vector vLookDir;
VectorSubtract(CurrentViewOrigin(),pStart,vLookDir);
VectorNormalize(vLookDir);
bestDot = fabs(DotProduct(vBeamDir1,vLookDir));
static float thresh = 0.85;
if (bestDot > thresh)
{
fBestFraction = 0.5;
VectorAdd(pStart,pEnd,vHaloPos);
VectorScale(vHaloPos,0.5,vHaloPos);
}
}
if (fBestFraction > 0)
{
float fade = pow(bestDot,60);
if (fade > 1.0) fade = 1.0;
float haloColor[3];
VectorScale( color, fade, haloColor );
pRenderContext->Bind(pHaloMaterial);
float curWidth = (fBestFraction*(endSegWidth-startSegWidth))+startSegWidth;
DrawHalo(pHaloMaterial,vHaloPos,flHaloScale*curWidth/endWidth,haloColor, flHDRColorScale);
}
}
}
segDraw.End();
// ------------------------
// Draw halo at end of beam
// ------------------------
if (pHaloMaterial)
{
pRenderContext->Bind(pHaloMaterial);
DrawHalo(pHaloMaterial,pEnd,flHaloScale,scaledColor, flHDRColorScale);
}
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : *spritemodel -
// frame -
// rendermode -
// source -
// scale -
// *color -
//-----------------------------------------------------------------------------
void BeamDrawHalo( const model_t* spritemodel, float frame, int rendermode,
const Vector& source, float scale, float* color, float flHDRColorScale )
{
CEngineSprite *pSprite = Draw_SetSpriteTexture( spritemodel, frame, rendermode );
if ( !pSprite )
return;
DrawHalo( pSprite->GetMaterial( (RenderMode_t)rendermode ), source, scale, color, flHDRColorScale );
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : noise_divisions -
// *prgNoise -
// *spritemodel -
// frame -
// rendermode -
// source -
// delta -
// width -
// scale -
// freq -
// speed -
// segments -
// *color -
//-----------------------------------------------------------------------------
void DrawDisk( int noise_divisions, float *prgNoise, const model_t* spritemodel,
float frame, int rendermode, const Vector& source, const Vector& delta,
float width, float scale, float freq, float speed, int segments, float* color, float flHDRColorScale )
{
int i;
float div, length, fraction, vLast, vStep;
Vector point;
float w;
static unsigned int nHDRColorScaleCache = 0;
CEngineSprite *pSprite = Draw_SetSpriteTexture( spritemodel, frame, rendermode );
if ( !pSprite )
return;
if ( segments < 2 )
return;
IMaterial *pMaterial = pSprite->GetMaterial( (RenderMode_t)rendermode );
if( pMaterial )
{
IMaterialVar *pHDRColorScaleVar = pMaterial->FindVarFast( "$hdrcolorscale", &nHDRColorScaleCache );
if( pHDRColorScaleVar )
{
pHDRColorScaleVar->SetFloatValue( flHDRColorScale );
}
}
if ( segments > noise_divisions ) // UNDONE: Allow more segments?
segments = noise_divisions;
length = VectorLength( delta ) * 0.01;
if ( length < 0.5 ) // Don't lose all of the noise/texture on short beams
length = 0.5;
div = 1.0 / (segments-1);
// UNDONE: Expose texture length scale factor to control "fuzziness"
vStep = length*div; // Texture length texels per space pixel
// UNDONE: Expose this paramter as well(3.5)? Texture scroll rate along beam
vLast = fmod(freq*speed,1); // Scroll speed 3.5 -- initial texture position, scrolls 3.5/sec (1.0 is entire texture)
scale = scale * length;
w = freq * delta[2];
CMatRenderContextPtr pRenderContext( materials );
IMesh* pMesh = pRenderContext->GetDynamicMesh( );
CMeshBuilder meshBuilder;
meshBuilder.Begin( pMesh, MATERIAL_TRIANGLE_STRIP, (segments - 1) * 2 );
// NOTE: We must force the degenerate triangles to be on the edge
for ( i = 0; i < segments; i++ )
{
float s, c;
fraction = i * div;
point[0] = source[0];
point[1] = source[1];
point[2] = source[2];
meshBuilder.Color3fv( color );
meshBuilder.TexCoord2f( 0, 1.0, vLast );
meshBuilder.Position3fv( point.Base() );
meshBuilder.AdvanceVertex();
SinCos( fraction * 2 * M_PI, &s, &c );
point[0] = s * w + source[0];
point[1] = c * w + source[1];
point[2] = source[2];
meshBuilder.Color3fv( color );
meshBuilder.TexCoord2f( 0, 0.0, vLast );
meshBuilder.Position3fv( point.Base() );
meshBuilder.AdvanceVertex();
vLast += vStep; // Advance texture scroll (v axis only)
}
meshBuilder.End( );
pMesh->Draw();
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : noise_divisions -
// *prgNoise -
// *spritemodel -
// frame -
// rendermode -
// source -
// delta -
// width -
// scale -
// freq -
// speed -
// segments -
// *color -
//-----------------------------------------------------------------------------
void DrawCylinder( int noise_divisions, float *prgNoise, const model_t* spritemodel,
float frame, int rendermode, const Vector& source, const Vector& delta,
float width, float scale, float freq, float speed, int segments,
float* color, float flHDRColorScale )
{
int i;
float div, length, fraction, vLast, vStep;
Vector point;
CEngineSprite *pSprite = Draw_SetSpriteTexture( spritemodel, frame, rendermode );
if ( !pSprite )
return;
if ( segments < 2 )
return;
IMaterial *pMaterial = pSprite->GetMaterial( (RenderMode_t)rendermode );
if( pMaterial )
{
static unsigned int nHDRColorScaleCache = 0;
IMaterialVar *pHDRColorScaleVar = pMaterial->FindVarFast( "$hdrcolorscale", &nHDRColorScaleCache );
if( pHDRColorScaleVar )
{
pHDRColorScaleVar->SetFloatValue( flHDRColorScale );
}
}
if ( segments > noise_divisions ) // UNDONE: Allow more segments?
segments = noise_divisions;
length = VectorLength( delta ) * 0.01;
if ( length < 0.5 ) // Don't lose all of the noise/texture on short beams
length = 0.5;
div = 1.0 / (segments-1);
// UNDONE: Expose texture length scale factor to control "fuzziness"
vStep = length*div; // Texture length texels per space pixel
// UNDONE: Expose this paramter as well(3.5)? Texture scroll rate along beam
vLast = fmod(freq*speed,1); // Scroll speed 3.5 -- initial texture position, scrolls 3.5/sec (1.0 is entire texture)
scale = scale * length;
CMatRenderContextPtr pRenderContext( materials );
IMesh* pMesh = pRenderContext->GetDynamicMesh( );
CMeshBuilder meshBuilder;
meshBuilder.Begin( pMesh, MATERIAL_TRIANGLE_STRIP, (segments - 1) * 2 );
float radius = delta[2];
for ( i = 0; i < segments; i++ )
{
float s, c;
fraction = i * div;
SinCos( fraction * 2 * M_PI, &s, &c );
point[0] = s * freq * radius + source[0];
point[1] = c * freq * radius + source[1];
point[2] = source[2] + width;
meshBuilder.Color3f( 0.0f, 0.0f, 0.0f );
meshBuilder.TexCoord2f( 0, 1.0f, vLast );
meshBuilder.Position3fv( point.Base() );
meshBuilder.AdvanceVertex();
point[0] = s * freq * (radius + width) + source[0];
point[1] = c * freq * (radius + width) + source[1];
point[2] = source[2] - width;
meshBuilder.Color3fv( color );
meshBuilder.TexCoord2f( 0, 0.0f, vLast );
meshBuilder.Position3fv( point.Base() );
meshBuilder.AdvanceVertex();
vLast += vStep; // Advance texture scroll (v axis only)
}
meshBuilder.End();
pMesh->Draw();
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : noise_divisions -
// *prgNoise -
// (*pfnNoise -
//-----------------------------------------------------------------------------
void DrawRing( int noise_divisions, float *prgNoise, void (*pfnNoise)( float *noise, int divs, float scale ),
const model_t* spritemodel, float frame, int rendermode,
const Vector& source, const Vector& delta, float width,
float amplitude, float freq, float speed, int segments, float *color, float flHDRColorScale )
{
int i, j, noiseIndex, noiseStep;
float div, length, fraction, factor, vLast, vStep;
Vector last1, last2, point, screen, screenLast(0,0,0), tmp, normal;
Vector center, xaxis, yaxis, zaxis;
float radius, x, y, scale;
Vector d;
CEngineSprite *pSprite = Draw_SetSpriteTexture( spritemodel, frame, rendermode );
if ( !pSprite )
return;
IMaterial *pMaterial = pSprite->GetMaterial( (RenderMode_t)rendermode );
if( pMaterial )
{
static unsigned int nHDRColorScaleCache = 0;
IMaterialVar *pHDRColorScaleVar = pMaterial->FindVarFast( "$hdrcolorscale", &nHDRColorScaleCache );
if( pHDRColorScaleVar )
{
pHDRColorScaleVar->SetFloatValue( flHDRColorScale );
}
}
VectorCopy( delta, d );
if ( segments < 2 )
return;
segments = segments * M_PI;
if ( segments > noise_divisions * 8 ) // UNDONE: Allow more segments?
segments = noise_divisions * 8;
length = VectorLength( d ) * 0.01 * M_PI;
if ( length < 0.5 ) // Don't lose all of the noise/texture on short beams
length = 0.5;
div = 1.0 / (segments-1);
// UNDONE: Expose texture length scale factor to control "fuzziness"
vStep = length*div/8.0; // Texture length texels per space pixel
// UNDONE: Expose this paramter as well(3.5)? Texture scroll rate along beam
vLast = fmod(freq*speed,1); // Scroll speed 3.5 -- initial texture position, scrolls 3.5/sec (1.0 is entire texture)
scale = amplitude * length / 8.0;
// Iterator to resample noise waveform (it needs to be generated in powers of 2)
noiseStep = (int)((noise_divisions-1) * div * 65536.0) * 8;
noiseIndex = 0;
VectorScale( d, 0.5, d );
VectorAdd( source, d, center );
zaxis[0] = 0; zaxis[1] = 0; zaxis[2] = 1;
VectorCopy( d, xaxis );
radius = VectorLength( xaxis );
// cull beamring
// --------------------------------
// Compute box center +/- radius
last1[0] = radius;
last1[1] = radius;
last1[2] = scale;
VectorAdd( center, last1, tmp ); // maxs
VectorSubtract( center, last1, screen ); // mins
// Is that box in PVS && frustum?
if ( !engine->IsBoxVisible( screen, tmp ) || engine->CullBox( screen, tmp ) )
{
return;
}
yaxis[0] = xaxis[1]; yaxis[1] = -xaxis[0]; yaxis[2] = 0;
VectorNormalize( yaxis );
VectorScale( yaxis, radius, yaxis );
j = segments / 8;
CMatRenderContextPtr pRenderContext( materials );
IMesh* pMesh = pRenderContext->GetDynamicMesh( );
CMeshBuilder meshBuilder;
meshBuilder.Begin( pMesh, MATERIAL_TRIANGLE_STRIP, (segments) * 2 );
for ( i = 0; i < segments + 1; i++ )
{
fraction = i * div;
SinCos( fraction * 2 * M_PI, &x, &y );
point[0] = xaxis[0] * x + yaxis[0] * y + center[0];
point[1] = xaxis[1] * x + yaxis[1] * y + center[1];
point[2] = xaxis[2] * x + yaxis[2] * y + center[2];
// Distort using noise
if ( scale != 0.0f )
{
factor = prgNoise[(noiseIndex>>16) & 0x7F] * scale;
VectorMA( point, factor, CurrentViewUp(), point );
// Rotate the noise along the perpendicluar axis a bit to keep the bolt from looking diagonal
factor = prgNoise[(noiseIndex>>16) & 0x7F] * scale * cos(fraction*M_PI*3*8+freq);
VectorMA( point, factor, CurrentViewRight(), point );
}
// Transform point into screen space
ScreenTransform( point, screen );
if (i != 0)
{
// Build world-space normal to screen-space direction vector
VectorSubtract( screen, screenLast, tmp );
// We don't need Z, we're in screen space
tmp[2] = 0;
VectorNormalize( tmp );
VectorScale( CurrentViewUp(), tmp[0], normal ); // Build point along noraml line (normal is -y, x)
VectorMA( normal, -tmp[1], CurrentViewRight(), normal );
// Make a wide line
VectorMA( point, width, normal, last1 );
VectorMA( point, -width, normal, last2 );
vLast += vStep; // Advance texture scroll (v axis only)
meshBuilder.Color3fv( color );
meshBuilder.TexCoord2f( 0, 1.0f, vLast );
meshBuilder.Position3fv( last2.Base() );
meshBuilder.AdvanceVertex();
meshBuilder.Color3fv( color );
meshBuilder.TexCoord2f( 0, 0.0f, vLast );
meshBuilder.Position3fv( last1.Base() );
meshBuilder.AdvanceVertex();
}
VectorCopy( screen, screenLast );
noiseIndex += noiseStep;
j--;
if (j == 0 && amplitude != 0 )
{
j = segments / 8;
(*pfnNoise)( prgNoise, noise_divisions, 1.0f );
}
}
meshBuilder.End();
pMesh->Draw();
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : spritemodel -
// *pHead -
// delta -
// *screen -
// *screenLast -
// die -
// source -
// flags -
// width -
// amplitude -
// freq -
// *color -
//-----------------------------------------------------------------------------
void DrawBeamFollow( const model_t* spritemodel, BeamTrail_t* pHead, int frame, int rendermode,
Vector& delta, Vector& screen, Vector& screenLast, float die,
const Vector& source, int flags, float width, float amplitude,
float freq, float* color, float flHDRColorScale )
{
float fraction;
float div;
float vLast = 0.0;
float vStep = 1.0;
Vector last1, last2, tmp, normal;
float scaledColor[3];
CEngineSprite *pSprite = Draw_SetSpriteTexture( spritemodel, frame, rendermode );
if ( !pSprite )
return;
IMaterial *pMaterial = pSprite->GetMaterial( (RenderMode_t)rendermode );
if( pMaterial )
{
static unsigned int nHDRColorScaleCache = 0;
IMaterialVar *pHDRColorScaleVar = pMaterial->FindVarFast( "$hdrcolorscale", &nHDRColorScaleCache );
if( pHDRColorScaleVar )
{
pHDRColorScaleVar->SetFloatValue( flHDRColorScale );
}
}
// UNDONE: This won't work, screen and screenLast must be extrapolated here to fix the
// first beam segment for this trail
// Build world-space normal to screen-space direction vector
VectorSubtract( screen, screenLast, tmp );
// We don't need Z, we're in screen space
tmp[2] = 0;
VectorNormalize( tmp );
VectorScale( CurrentViewUp(), tmp[0], normal ); // Build point along noraml line (normal is -y, x)
VectorMA( normal, -tmp[1], CurrentViewRight(), normal );
// Make a wide line
VectorMA( delta, width, normal, last1 );
VectorMA( delta, -width, normal, last2 );
div = 1.0 / amplitude;
fraction = ( die - gpGlobals->curtime ) * div;
unsigned char nColor[3];
VectorScale( color, fraction, scaledColor );
nColor[0] = (unsigned char)clamp( (int)(scaledColor[0] * 255.0f), 0, 255 );
nColor[1] = (unsigned char)clamp( (int)(scaledColor[1] * 255.0f), 0, 255 );
nColor[2] = (unsigned char)clamp( (int)(scaledColor[2] * 255.0f), 0, 255 );
// need to count the segments
int count = 0;
BeamTrail_t* pTraverse = pHead;
while ( pTraverse )
{
++count;
pTraverse = pTraverse->next;
}
CMatRenderContextPtr pRenderContext( materials );
IMesh* pMesh = pRenderContext->GetDynamicMesh( );
CMeshBuilder meshBuilder;
meshBuilder.Begin( pMesh, MATERIAL_QUADS, count );
while (pHead)
{
// Msg("%.2f ", fraction );
meshBuilder.Position3fv( last1.Base() );
meshBuilder.Color3ubv( nColor );
meshBuilder.TexCoord2f( 0, 0.0f, 0.0f );
meshBuilder.AdvanceVertex();
meshBuilder.Position3fv( last2.Base() );
meshBuilder.Color3ubv( nColor );
meshBuilder.TexCoord2f( 0, 1.0f, 0.0f );
meshBuilder.AdvanceVertex();
// Transform point into screen space
ScreenTransform( pHead->org, screen );
// Build world-space normal to screen-space direction vector
VectorSubtract( screen, screenLast, tmp );
// We don't need Z, we're in screen space
tmp[2] = 0;
VectorNormalize( tmp );
VectorScale( CurrentViewUp(), tmp[0], normal ); // Build point along noraml line (normal is -y, x)
VectorMA( normal, -tmp[1], CurrentViewRight(), normal );
// Make a wide line
VectorMA( pHead->org, width, normal, last1 );
VectorMA( pHead->org, -width, normal, last2 );
vLast += vStep; // Advance texture scroll (v axis only)
if (pHead->next != NULL)
{
fraction = (pHead->die - gpGlobals->curtime) * div;
VectorScale( color, fraction, scaledColor );
nColor[0] = (unsigned char)clamp( (int)(scaledColor[0] * 255.0f), 0, 255 );
nColor[1] = (unsigned char)clamp( (int)(scaledColor[1] * 255.0f), 0, 255 );
nColor[2] = (unsigned char)clamp( (int)(scaledColor[2] * 255.0f), 0, 255 );
}
else
{
fraction = 0.0;
nColor[0] = nColor[1] = nColor[2] = 0;
}
meshBuilder.Position3fv( last2.Base() );
meshBuilder.Color3ubv( nColor );
meshBuilder.TexCoord2f( 0, 1.0f, 1.0f );
meshBuilder.AdvanceVertex();
meshBuilder.Position3fv( last1.Base() );
meshBuilder.Color3ubv( nColor );
meshBuilder.TexCoord2f( 0, 0.0f, 1.0f );
meshBuilder.AdvanceVertex();
VectorCopy( screen, screenLast );
pHead = pHead->next;
}
meshBuilder.End();
pMesh->Draw();
}
/*
P0 = start
P1 = control
P2 = end
P(t) = (1-t)^2 * P0 + 2t(1-t)*P1 + t^2 * P2
*/
void DrawBeamQuadratic( const Vector &start, const Vector &control, const Vector &end, float width, const Vector &color, float scrollOffset, float flHDRColorScale )
{
int subdivisions = 16;
CMatRenderContextPtr pRenderContext( g_pMaterialSystem );
CBeamSegDraw beamDraw;
beamDraw.Start( pRenderContext, subdivisions+1, NULL );
BeamSeg_t seg;
seg.m_flWidth = width;
float t = 0;
float u = fmod( scrollOffset, 1 );
float dt = 1.0 / (float)subdivisions;
for( int i = 0; i <= subdivisions; i++, t += dt )
{
float omt = (1-t);
float p0 = omt*omt;
float p1 = 2*t*omt;
float p2 = t*t;
seg.m_vPos = p0 * start + p1 * control + p2 * end;
seg.m_flTexCoord = u - t;
if ( i == 0 || i == subdivisions )
{
// HACK: fade out the ends a bit
seg.m_color.r = seg.m_color.g = seg.m_color.b = 0;
seg.m_color.a = 255;
}
else
{
seg.SetColor( color, 1.0f );
}
beamDraw.NextSeg( &seg );
}
beamDraw.End();
}