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sqwarmed/sdk_src/materialsystem/stdshaders/particlesphere_dx9.cpp

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//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============//
//
// Purpose: A wet version of base * lightmap
//
// $Header: $
// $NoKeywords: $
//=============================================================================//
#include "BaseVSShader.h"
#include "particlesphere_vs20.inc"
#include "particlesphere_ps20.inc"
#include "particlesphere_ps20b.inc"
#include "cpp_shader_constant_register_map.h"
static ConVar mat_depthfeather_enable( "mat_depthfeather_enable", "1", FCVAR_DEVELOPMENTONLY );
int GetDefaultDepthFeatheringValue( void ); //defined in spritecard.cpp
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
DEFINE_FALLBACK_SHADER( ParticleSphere, ParticleSphere_DX9 )
BEGIN_VS_SHADER_FLAGS( ParticleSphere_DX9, "Help for BumpmappedEnvMap", SHADER_NOT_EDITABLE )
BEGIN_SHADER_PARAMS
SHADER_PARAM( DEPTHBLEND, SHADER_PARAM_TYPE_INTEGER, "0", "fade at intersection boundaries" )
SHADER_PARAM( DEPTHBLENDSCALE, SHADER_PARAM_TYPE_FLOAT, "50.0", "Amplify or reduce DEPTHBLEND fading. Lower values make harder edges." )
SHADER_PARAM( USINGPIXELSHADER, SHADER_PARAM_TYPE_BOOL, "0", "Tells to client code whether the shader is using DX8 vertex/pixel shaders or not" )
SHADER_PARAM( BUMPMAP, SHADER_PARAM_TYPE_TEXTURE, "models/shadertest/shader1_normal", "bumpmap" )
SHADER_PARAM( LIGHTS, SHADER_PARAM_TYPE_FOURCC, "", "array of lights" )
SHADER_PARAM( LIGHT_POSITION, SHADER_PARAM_TYPE_VEC3, "0 0 0", "This is the directional light position." )
SHADER_PARAM( LIGHT_COLOR, SHADER_PARAM_TYPE_VEC3, "1 1 1", "This is the directional light color." )
END_SHADER_PARAMS
SHADER_INIT_PARAMS()
{
if ( !params[DEPTHBLEND]->IsDefined() )
{
params[ DEPTHBLEND ]->SetIntValue( GetDefaultDepthFeatheringValue() );
}
if ( !g_pHardwareConfig->SupportsPixelShaders_2_b() )
{
params[ DEPTHBLEND ]->SetIntValue( 0 );
}
if ( !params[DEPTHBLENDSCALE]->IsDefined() )
{
params[ DEPTHBLENDSCALE ]->SetFloatValue( 50.0f );
}
}
SHADER_INIT
{
params[USINGPIXELSHADER]->SetIntValue( true );
LoadBumpMap( BUMPMAP );
}
SHADER_FALLBACK
{
return 0;
}
SHADER_DRAW
{
bool bDepthBlend = ( params[DEPTHBLEND]->GetIntValue() != 0 ) && mat_depthfeather_enable.GetBool();
SHADOW_STATE
{
pShaderShadow->EnableTexture( SHADER_SAMPLER0, true );
if ( bDepthBlend )
{
pShaderShadow->EnableTexture( SHADER_SAMPLER1, true );
}
int tCoordDimensions[] = {2};
pShaderShadow->VertexShaderVertexFormat(
VERTEX_POSITION | VERTEX_COLOR, 1, tCoordDimensions, 0 );
pShaderShadow->EnableBlending( true );
pShaderShadow->BlendFunc( SHADER_BLEND_SRC_ALPHA, SHADER_BLEND_ONE_MINUS_SRC_ALPHA );
pShaderShadow->EnableDepthWrites( false );
DECLARE_STATIC_VERTEX_SHADER( particlesphere_vs20 );
SET_STATIC_VERTEX_SHADER( particlesphere_vs20 );
if( g_pHardwareConfig->SupportsPixelShaders_2_b() )
{
DECLARE_STATIC_PIXEL_SHADER( particlesphere_ps20b );
SET_STATIC_PIXEL_SHADER_COMBO( DEPTHBLEND, bDepthBlend );
SET_STATIC_PIXEL_SHADER( particlesphere_ps20b );
}
else
{
DECLARE_STATIC_PIXEL_SHADER( particlesphere_ps20 );
SET_STATIC_PIXEL_SHADER( particlesphere_ps20 );
}
FogToFogColor();
}
DYNAMIC_STATE
{
BindTexture( SHADER_SAMPLER0, BUMPMAP );
if ( bDepthBlend )
{
pShaderAPI->BindStandardTexture( SHADER_SAMPLER1, TEXTURE_FRAME_BUFFER_FULL_DEPTH );
}
pShaderAPI->SetVertexShaderConstant( VERTEX_SHADER_SHADER_SPECIFIC_CONST_0, params[LIGHT_POSITION]->GetVecValue() );
// Separate the light color into something that has a max value of 1 and a scale
// so the vertex shader can determine if it's going to overflow the color and scale back
// if it needs to.
//
// (It does this by seeing if the intensity*1/distSqr is > 1. If so, then it scales it so
// it is equal to 1).
const float *f = params[LIGHT_COLOR]->GetVecValue();
Vector vLightColor( f[0], f[1], f[2] );
float flScale = MAX( vLightColor.x, MAX( vLightColor.y, vLightColor.z ) );
if ( flScale < 0.01f )
flScale = 0.01f;
float vScaleVec[3] = { flScale, flScale, flScale };
vLightColor /= flScale;
pShaderAPI->SetVertexShaderConstant( VERTEX_SHADER_SHADER_SPECIFIC_CONST_1, vLightColor.Base() );
pShaderAPI->SetVertexShaderConstant( VERTEX_SHADER_SHADER_SPECIFIC_CONST_2, vScaleVec );
pShaderAPI->SetPixelShaderFogParams( PSREG_FOG_PARAMS );
float vEyePos_SpecExponent[4];
pShaderAPI->GetWorldSpaceCameraPosition( vEyePos_SpecExponent );
vEyePos_SpecExponent[3] = 0.0f;
pShaderAPI->SetPixelShaderConstant( PSREG_EYEPOS_SPEC_EXPONENT, vEyePos_SpecExponent, 1 );
pShaderAPI->SetDepthFeatheringPixelShaderConstant( 0, params[DEPTHBLENDSCALE]->GetFloatValue() );
// Get viewport and render target dimensions and set shader constant to do a 2D mad
int nViewportX, nViewportY, nViewportWidth, nViewportHeight;
pShaderAPI->GetCurrentViewport( nViewportX, nViewportY, nViewportWidth, nViewportHeight );
int nRtWidth, nRtHeight;
pShaderAPI->GetCurrentRenderTargetDimensions( nRtWidth, nRtHeight );
float vViewportMad[4];
vViewportMad[0] = ( float )nViewportWidth / ( float )nRtWidth;
vViewportMad[1] = ( float )nViewportHeight / ( float )nRtHeight;
vViewportMad[2] = ( float )nViewportX / ( float )nRtWidth;
vViewportMad[3] = ( float )nViewportY / ( float )nRtHeight;
pShaderAPI->SetVertexShaderConstant( VERTEX_SHADER_SHADER_SPECIFIC_CONST_10, vViewportMad, 1 );
// Compute the vertex shader index.
DECLARE_DYNAMIC_VERTEX_SHADER( particlesphere_vs20 );
SET_DYNAMIC_VERTEX_SHADER_COMBO( FOGTYPE, s_pShaderAPI->GetSceneFogMode() == MATERIAL_FOG_LINEAR_BELOW_FOG_Z );
SET_DYNAMIC_VERTEX_SHADER( particlesphere_vs20 );
if( g_pHardwareConfig->SupportsPixelShaders_2_b() )
{
DECLARE_DYNAMIC_PIXEL_SHADER( particlesphere_ps20b );
SET_DYNAMIC_PIXEL_SHADER( particlesphere_ps20b );
}
else
{
DECLARE_DYNAMIC_PIXEL_SHADER( particlesphere_ps20 );
SET_DYNAMIC_PIXEL_SHADER( particlesphere_ps20 );
}
}
Draw();
}
END_SHADER
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