Counter Strike : Global Offensive Source Code
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//========== Copyright (c) Valve Corporation, All rights reserved. ==========//
// STATIC: "DEFERRED_SHADOWS" "0..1" [CONSOLE]
// STATIC: "DEFERRED_SHADOWS" "0..0" [PC]
// STATIC: "BLOBBY_SHADOWS" "0..1"
#include "common_fog_ps_fxc.h"
#define HDRTYPE HDR_TYPE_NONE
#include "common_ps_fxc.h"
const float4 g_ShadowColor : register( c1 );
const float3 g_EyePos : register( c2 );
const float4 g_FogParams : register( c3 );
const float4 g_DeferredParams : register( c4 );
#define g_MaxFalloffAmount g_DeferredParams.x
#define g_vInvScreenSize g_DeferredParams.yz
const float4x4 g_mInvViewProj : register( c5 );
sampler ShadowSampler : register( s0 );
sampler sDepth : register( s1 );
#if DEFERRED_SHADOWS == 0
//////////////////////////////////
// NORMAL SHADOW SHADER
//////////////////////////////////
struct PS_INPUT
{
float4 worldPos_projPosZ : TEXCOORD0;
float4 vFalloffParams : TEXCOORD1_centroid;
float3 texCoord0_shadowAlpha : TEXCOORD2_centroid;
#if !defined( _X360 )
float4 texCoord1_2 : TEXCOORD3_centroid;
float4 texCoord3_4 : TEXCOORD4;
#endif
};
float4_color_return_type main( PS_INPUT i ) : COLOR
{
float shadowCoverage;
#if BLOBBY_SHADOWS == 1
{
shadowCoverage = tex2D( ShadowSampler, i.texCoord0_shadowAlpha.xy ).a;
}
#elif !defined( _X360 )
{
float samples0;
float4 samples1_4;
samples0 = tex2D( ShadowSampler, i.texCoord0_shadowAlpha.xy ).a;
samples1_4.x = tex2D( ShadowSampler, i.texCoord1_2.xy ).a;
samples1_4.y = tex2D( ShadowSampler, i.texCoord1_2.wz ).a;
samples1_4.z = tex2D( ShadowSampler, i.texCoord3_4.xy ).a;
samples1_4.w = tex2D( ShadowSampler, i.texCoord3_4.wz ).a;
// Interpolate between a bunch of jittered shadow samples.
shadowCoverage = samples0 * 0.2 + dot( samples1_4, float4( 0.2, 0.2, 0.2, 0.2 ) );
}
#else
{
float samples0 = tex2D( ShadowSampler, i.texCoord0_shadowAlpha.xy ).a;
float2 texCoord = i.texCoord0_shadowAlpha.xy;
float4 samples1_4;
asm {
tfetch2D samples1_4.w___, texCoord.xy, ShadowSampler, OffsetX = -1.0, OffsetY = -1.0
tfetch2D samples1_4._w__, texCoord.xy, ShadowSampler, OffsetX = 1.0, OffsetY = -1.0
tfetch2D samples1_4.__w_, texCoord.xy, ShadowSampler, OffsetX = -1.0, OffsetY = 1.0
tfetch2D samples1_4.___w, texCoord.xy, ShadowSampler, OffsetX = 1.0, OffsetY = 1.0
};
// Interpolate between a bunch of jittered shadow samples.
shadowCoverage = samples0 * 0.2 + dot( samples1_4, float4( 0.2,0.2,0.2,0.2 ) );
}
#endif
// compute "vertex" alpha
// NOTE: 0 means black, non-zero adds towards white...
float fVertAlpha = saturate( i.vFalloffParams.w * i.vFalloffParams.y + i.vFalloffParams.x ); // could pull the mad into the VS
fVertAlpha = saturate( i.vFalloffParams.z + fVertAlpha * g_MaxFalloffAmount );
//fVertAlpha = i.texCoord0_shadowAlpha.z;
// To accomplish shadow fading, subtract vertex alpha from texture alpha
shadowCoverage = saturate( shadowCoverage - fVertAlpha );
// Blend between white and the constant color...
// return lerp( 1.0-shadowCoverage, 1.0, g_ShadowColor );
// this is equivalent, and saves an instruction
float4 result = shadowCoverage*g_ShadowColor - shadowCoverage;
result = 1.0 + result;
float alpha = 1.0f;
float fogFactor = CalcPixelFogFactor( PIXELFOGTYPE, g_FogParams, g_EyePos.xyz, i.worldPos_projPosZ.xyz, i.worldPos_projPosZ.w );
// Apply fog here to compensate for our srcColor*dstColor alpha blend into already fogged pixels
result.rgb = 1.0f - ( ( 1.0f - result.rgb ) * pow( ( 1.0f - fogFactor ), 4.0f ) );
// Call FinalOutput without fog!
return FinalOutput( float4( result.rgb, alpha ), fogFactor, PIXEL_FOG_TYPE_NONE, TONEMAP_SCALE_NONE );
}
#else // DEFERRED_SHADOWS == 1
//////////////////////////////////
// X360 DEFERRED SHADOW SHADER
//////////////////////////////////
struct PS_INPUT
{
float4 vTexCoordBiasScale : TEXCOORD0;
float4 vProjToTex0 : TEXCOORD1_centroid;
float4 vProjToTex1 : TEXCOORD2_centroid;
float4 vProjToTex2 : TEXCOORD3_centroid;
float4 vProjToTex3 : TEXCOORD4;
float3 vFalloffParams : TEXCOORD5;
#ifdef _PS3
float4 vPos : TEXCOORD6;
#else
float2 vPos : VPOS;
#endif
};
float4_color_return_type main( PS_INPUT i ) : COLOR
{
float4 vPosCS;
vPosCS.xy = ( i.vPos.xy+float2(0.5, 0.5) ) * g_vInvScreenSize;
vPosCS.z = 1.0 - tex2D( sDepth, vPosCS.xy );
vPosCS.w = 1.0;
vPosCS.xy = 2.0 * vPosCS.xy - 1.0;
vPosCS.y = -vPosCS.y;
//return float4((1-vPosCS.z).xxx, 1);
float4 vPosTS;// = mul( vPosCS, g_mScreenToTexture );
// Clip space to shadow texture space transform
vPosTS.x = dot( vPosCS, i.vProjToTex0 );
vPosTS.y = dot( vPosCS, i.vProjToTex1 );
vPosTS.z = dot( vPosCS, i.vProjToTex2 );
vPosTS.w = dot( vPosCS, i.vProjToTex3 );
vPosTS /= vPosTS.w;
// check if pixel is within shadow frustum, and early-out if it's not
float2 vClamped = saturate( vPosTS.xy );
vClamped -= vPosTS.xy;
clip( 0.0001 - dot( vClamped, vClamped ) );
// extract normal in texture space
float3 vNormalTS = cross( ddx(vPosTS.xyz), ddy(vPosTS.xyz) );
#if BLOBBY_SHADOWS == 0
float2 vTexCoord = i.vTexCoordBiasScale.xy + i.vTexCoordBiasScale.zw * vPosTS.xy;
#else
float2 vTexCoord = vPosTS.xy;
#endif
float shadowCoverage = 0.0f;
#if !defined( _X360 ) || ( BLOBBY_SHADOWS == 1 )
{
shadowCoverage = tex2D( ShadowSampler, vTexCoord ).a;
}
#else
{
float samples0 = tex2D( ShadowSampler, vTexCoord ).a;
float4 samples1_4;
asm {
tfetch2D samples1_4.w___, vTexCoord.xy, ShadowSampler, OffsetX = -1.0, OffsetY = -1.0
tfetch2D samples1_4._w__, vTexCoord.xy, ShadowSampler, OffsetX = 1.0, OffsetY = -1.0
tfetch2D samples1_4.__w_, vTexCoord.xy, ShadowSampler, OffsetX = -1.0, OffsetY = 1.0
tfetch2D samples1_4.___w, vTexCoord.xy, ShadowSampler, OffsetX = 1.0, OffsetY = 1.0
};
// Interpolate between a bunch of jittered shadow samples.
shadowCoverage = samples0 * 0.2 + dot( samples1_4, float4( 0.2,0.2,0.2,0.2 ) );
}
#endif
// compute "vertex" alpha
// NOTE: 0 means black, non-zero adds towards white...
float fVertAlpha = saturate( vPosTS.z * i.vFalloffParams.y + i.vFalloffParams.x ); // could pull the mad into the VS
fVertAlpha = saturate( i.vFalloffParams.z + fVertAlpha * g_MaxFalloffAmount );
// To accomplish shadow fading, subtract vertex alpha from texture alpha
shadowCoverage = saturate( shadowCoverage - fVertAlpha );
// mask out shadows on geometry facing away from the shadow direction
shadowCoverage *= saturate(sign(vNormalTS.z));
// TODO: Add fog
// Blend between white and the constant color...
// return lerp( 1.0-shadowCoverage, 1.0, g_ShadowColor );
// this is equivalent, and saves an instruction
float4 result = shadowCoverage*g_ShadowColor - shadowCoverage;
result = 1.0 + result;
float alpha = 1.0f;
// TODO: Add support for fog
float fogFactor = 0;
/*
// Apply fog here to compensate for our srcColor*dstColor alpha blend into already fogged pixels
result.rgb = 1.0f - ( ( 1.0f - result.rgb ) * pow( ( 1.0f - fogFactor ), 4.0f ) );
*/
//return float4( g_shadowColor.rgb, shadowCoverage );
// Call FinalOutput without fog!
return FinalOutput( float4( result.rgb, alpha ), fogFactor, PIXEL_FOG_TYPE_NONE, TONEMAP_SCALE_NONE );
}
#endif