ppovb5fc7/gazebo/media/skyx/SkyX_VolClouds_Lightning.hlsl

/*
--------------------------------------------------------------------------------
This source file is part of SkyX.
Visit http://www.paradise-studios.net/products/skyx/

Copyright (C) 2009-2012 Xavier Verguín González <xavyiy@gmail.com>

This program is free software; you can redistribute it and/or modify it under
the terms of the GNU Lesser General Public License as published by the Free Software
Foundation; either version 2 of the License, or (at your option) any later
version.

This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.

You should have received a copy of the GNU Lesser General Public License along with
this program; if not, write to the Free Software Foundation, Inc., 59 Temple
Place - Suite 330, Boston, MA 02111-1307, USA, or go to
http://www.gnu.org/copyleft/lesser.txt.
--------------------------------------------------------------------------------
*/

// ------------------- SkyX volumetric clouds + lightning -----------------------

void main_vp(
    // IN
	float4 iPosition	        : POSITION,
	float3 i3DCoord             : TEXCOORD0,
	float2 iNoiseUV             : TEXCOORD1,
	float  iOpacity             : TEXCOORD2,
	// OUT
	out float4 oPosition		: POSITION,
	out float3 o3DCoord         : TEXCOORD0,
	out float2 oNoiseUV         : TEXCOORD1,
	out float  oOpacity         : TEXCOORD2,
	out float3 oEyePixel        : TEXCOORD3,
	out float  oDistance        : TEXCOORD4,
	out float4 oPositionAtt     : TEXCOORD5,
	// UNIFORM
	uniform float4x4 uWorldViewProj,
	uniform float3   uCameraPosition,
	uniform float    uRadius)
{
    // Clip space position
	oPosition   = mul(uWorldViewProj, iPosition);

	// 3D coords
	o3DCoord = i3DCoord;
    // Noise coords
    oNoiseUV = iNoiseUV;
    // Opacity
    oOpacity = iOpacity;
    // Eye to pixel vector
    oEyePixel = normalize(iPosition.xyz - uCameraPosition);
    
    // Distance in [0,1] range
    oDistance = length(float2(iPosition.x, iPosition.z)) / uRadius;
	
	oPositionAtt.xyz = iPosition.xyz;
	oPositionAtt.w = 225.0/uRadius;
}

void main_fp(
    // IN
    float3 i3DCoord     : TEXCOORD0,
    float2 iNoiseUV     : TEXCOORD1,
    float  iOpacity     : TEXCOORD2,
    float3 iEyePixel    : TEXCOORD3,
    float  iDistance    : TEXCOORD4,
	float4 iPositionAtt : TEXCOORD5,
	// OUT 
	out float4 oColor		: COLOR,
	// UNIFORM
	uniform float     uInterpolation,
	uniform float3    uSunDirection,
	uniform float3    uAmbientColor,
	uniform float3    uSunColor,
	uniform float4    uLightResponse,
	uniform float4    uAmbientFactors,
	uniform float4    uLightning0,
	uniform float4    uLightning1,
	uniform float4    uLightning2,
	uniform float3    uLightningColor,
	uniform sampler3D uDensity0 : register(s0),
	uniform sampler3D uDensity1 : register(s1),
	uniform sampler2D uNoise    : register(s2))
{    
    // x - Sun light power
    // y - Sun beta multiplier
    // z - Ambient color multiplier
    // w - Distance attenuation
	// uLightResponse = float4(0.25,0.2,1,0.1);
	
	// Ambient light factors
	// x - constant, y - linear, z - cuadratic, w - cubic
	// float4 uAmbientFactors = float4(0.4,1,1,1);

	float3 Noise = tex2D(uNoise, iNoiseUV*5);
	float3 Final3DCoord = i3DCoord+0.002575*(Noise-0.5f)*2;
	Final3DCoord.z = saturate(Final3DCoord.z);
	
	float3 Density0 = tex3D(uDensity0, Final3DCoord);
	float3 Density1 = tex3D(uDensity1, Final3DCoord);
	float3 Density  = Density0*(1-uInterpolation) + Density1*uInterpolation;
	
	float3 finalcolor = float3(0,0,0);
	float  Opacity    = 0;
	
	if (Density.x > 0)
	{
	    float cos0 = saturate(dot(uSunDirection,iEyePixel));
	    float c2=cos0*cos0;
	
		float Beta = c2*uLightResponse.y*(0.5f+2.5f*saturate(1-2*uSunDirection.y)*Density.y);

		float sunaccumulation = max(0.2, saturate(Beta+Density.y*uLightResponse.x+pow(iDistance,1.5)*uLightResponse.w));
		float ambientaccumulation = 
			  saturate(uAmbientFactors.x + uAmbientFactors.y*i3DCoord.z + uAmbientFactors.z*pow(i3DCoord.z,2) + uAmbientFactors.w*pow(i3DCoord.z,3))*uLightResponse.z;
	    
		finalcolor = uAmbientColor*ambientaccumulation + uSunColor*sunaccumulation;
		Opacity = (1 - exp(-Density.x*(7.5-6.5*i3DCoord.z)))*iOpacity;
		
		float3 lightningColor = uLightningColor*2*(1-saturate(finalcolor));
		
		// Lightning 0
		finalcolor += lightningColor * uLightning0.w / (0.85 + iPositionAtt.w*length(uLightning0.xyz - iPositionAtt.xyz));
		// Lightning 1
		finalcolor += lightningColor * uLightning1.w / (0.85 + iPositionAtt.w*length(uLightning1.xyz - iPositionAtt.xyz));
		// Lightning 2
		finalcolor += lightningColor * uLightning2.w / (0.85 + iPositionAtt.w*length(uLightning2.xyz - iPositionAtt.xyz));
	}
	
    oColor = float4(finalcolor, Opacity);

 //oColor.xyz*=0.0001;
 // oColor.a = saturate(oColor.a+1)*iOpacity;
 // oColor.xyz+=Noise;
//oColor.rgb*=0.0001;oColor.r = dot(uLightDirection,iEyePixel);
}