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Atmospheric scattering OpenGL 3.3

Im currently trying to convert a shader by Sean O'Neil to version 330 so i can try it out in a application im writing. Im having some issues with deprecated functions, so i replaced them, but im almost completely new to glsl, so i probably did a mistake somewhere.

Original shaders can be found here: http://www.gamedev.net/topic/592043-solved-trying-to-use-atmospheric-scattering-oneill-2004-but-get-black-sphere/

My horrible attempt at converting them:

``````#version 330 core

// Input vertex data, different for all executions of this shader.
layout(location = 0) in vec3 vertexPosition_modelspace;
layout(location = 2) in vec3 vertexNormal_modelspace;

uniform vec3 v3CameraPos;       // The camera's current position
uniform vec3 v3LightPos;        // The direction vector to the light source
uniform vec3 v3InvWavelength;   // 1 / pow(wavelength, 4) for the red, green, and blue channels
uniform float fCameraHeight;    // The camera's current height
uniform float fCameraHeight2;   // fCameraHeight^2
uniform float fKrESun;          // Kr * ESun
uniform float fKmESun;          // Km * ESun
uniform float fKr4PI;           // Kr * 4 * PI
uniform float fKm4PI;           // Km * 4 * PI
uniform float fScaleDepth;      // The scale depth (i.e. the altitude at which the atmosphere's average density is found)
uniform float fScaleOverScaleDepth; // fScale / fScaleDepth

const int nSamples = 2;
const float fSamples = 2.0;

invariant out vec3 v3Direction;

// Values that stay constant for the whole mesh.
uniform mat4 MVP;
uniform mat4 V;
uniform mat4 M;
uniform vec3 LightPosition_worldspace;

out vec4    dgl_SecondaryColor;
out vec4   dgl_Color;

float scale(float fCos)
{
float x = 1.0 - fCos;
return fScaleDepth * exp(-0.00287 + x*(0.459 + x*(3.83 + x*(-6.80 + x*5.25))));
}

void main(void)
{

//gg_FrontColor = vec3(1.0, 0.0, 0.0);
//gg_FrontSecondaryColor = vec3(0.0, 1.0, 0.0);

// Get the ray from the camera to the vertex, and its length (which is the far point of the ray passing through the atmosphere)
vec3 v3Pos = vertexPosition_modelspace;
vec3 v3Ray = v3Pos - v3CameraPos;
float fFar = length(v3Ray);
v3Ray /= fFar;

// Calculate the ray's starting position, then calculate its scattering offset
vec3 v3Start = v3CameraPos;
float fHeight = length(v3Start);
float fDepth = exp(fScaleOverScaleDepth * (fInnerRadius - fCameraHeight));
float fStartAngle = dot(v3Ray, v3Start) / fHeight;
float fStartOffset = fDepth*scale(fStartAngle);

// Initialize the scattering loop variables
gl_FrontColor = vec4(0.0, 0.0, 0.0, 0.0);
gl_FrontSecondaryColor = vec4(0.0, 0.0, 0.0, 0.0);

float fSampleLength = fFar / fSamples;
float fScaledLength = fSampleLength * fScale;
vec3 v3SampleRay = v3Ray * fSampleLength;
vec3 v3SamplePoint = v3Start + v3SampleRay * 0.5;

// Now loop through the sample rays
vec3 v3FrontColor = vec3(0.2, 0.1, 0.0);
for(int i=0; i<nSamples; i++)
{
float fHeight = length(v3SamplePoint);
float fDepth = exp(fScaleOverScaleDepth * (fInnerRadius - fHeight));
float fLightAngle = dot(v3LightPos, v3SamplePoint) / fHeight;
float fCameraAngle = dot(v3Ray, v3SamplePoint) / fHeight;
float fScatter = (fStartOffset + fDepth*(scale(fLightAngle) - scale(fCameraAngle)));
vec3 v3Attenuate = exp(-fScatter * (v3InvWavelength * fKr4PI + fKm4PI));
v3FrontColor += v3Attenuate * (fDepth * fScaledLength);
v3SamplePoint += v3SampleRay;
}

// Finally, scale the Mie and Rayleigh colors and set up the varying variables for the pixel shader
gl_FrontSecondaryColor.rgb = v3FrontColor * fKmESun;
gl_FrontColor.rgb = v3FrontColor * (v3InvWavelength * fKrESun);
gl_Position =  MVP * vec4(vertexPosition_modelspace,1);
v3Direction = v3CameraPos - v3Pos;

dgl_SecondaryColor = gl_FrontSecondaryColor;
dgl_Color = gl_FrontColor;

}
``````

``````#version 330 core

out vec4 dgl_FragColor;

uniform vec3 v3LightPos;
uniform float g;
uniform float g2;

invariant in vec3 v3Direction;

in vec4    dgl_SecondaryColor;
in vec4   dgl_Color;

uniform mat4 MV;

void main (void)
{

float fCos = dot(v3LightPos, v3Direction) / length(v3Direction);
float fMiePhase = 1.5 * ((1.0 - g2) / (2.0 + g2)) * (1.0 + fCos*fCos) / pow(1.0 + g2 - 2.0*g*fCos, 1.5);
dgl_FragColor = dgl_Color + fMiePhase * dgl_SecondaryColor;
dgl_FragColor.a = dgl_FragColor.b;

}
``````

I wrote a function to render a sphere, and im trying to render this shader onto a inverted version of it, the sphere works completely fine, with normals and all. My problem is that the sphere gets rendered all black, so the shader is not working. Edit: Got the sun to draw, but the sky is still all black.

This is how i'm trying to render the atmosphere inside my main rendering loop.

``````    glUseProgram(programAtmosphere);
glBindTexture(GL_TEXTURE_2D, 0);
//######################

glUniform3f(v3CameraPos, getPlayerPos().x, getPlayerPos().y, getPlayerPos().z);

glm::vec3 lightDirection = lightPos/length(lightPos);

glUniform3f(v3LightPos, lightDirection.x , lightDirection.y, lightDirection.z);

glUniform3f(v3InvWavelength, 1.0f / pow(0.650f, 4.0f), 1.0f / pow(0.570f, 4.0f), 1.0f / pow(0.475f, 4.0f));

glUniform1fARB(fCameraHeight, 10.0f+length(getPlayerPos()));

glUniform1fARB(fCameraHeight2, (10.0f+length(getPlayerPos()))*(10.0f+length(getPlayerPos())));

glUniform1fARB(fKrESun, 0.0025f * 20.0f);

glUniform1fARB(fKmESun, 0.0015f * 20.0f);

glUniform1fARB(fKr4PI, 0.0025f * 4.0f * 3.141592653f);

glUniform1fARB(fKm4PI, 0.0015f * 4.0f * 3.141592653f);

glUniform1fARB(fScale, 1.0f / 0.25f);

glUniform1fARB(fScaleDepth, 0.25f);

glUniform1fARB(fScaleOverScaleDepth, 4.0f / 0.25f );

glUniform1fARB(g, -0.990f);

glUniform1f(g2, -0.990f * -0.990f);
``````

Any ideas?

Edit: updated the code, and added a picture.

-
you can initialize uniforms in the shader source code. And when you have gl 3.3 then you do not need arb calls for Uniforms – Arne Mar 11 '14 at 10:10

I think the problem there is, that you write to 'FragColor', which may be a 'dead end' output variable in the fragment shader, since one must explicitly bind it to a color number before linking the program:

`glBindFragDataLocation(programAtmosphere,0,"FragColor");`

or using this in a shader:

`layout(location = 0) out vec4 FragColor`

You may try to use the builtin out vars instead: `gl_FragColor`, which is an alias for `gl_FragData[0]` and therefore the same as above binding.

EDIT: Forgot to say, when using the deprecated builtins, you must have a compatibility declaration:

`#version 330 compatibility`

EDIT 2: To test the binding, I'd write a constant color to it to disable possible calculations errors, since these may not yield the expected result, because of errors or zero input.

-
Thanks, im going to try this when i get to the computer, i will reply as soon as i have tested it out! – user1419305 Oct 14 '12 at 17:01
Updated the question! – user1419305 Oct 22 '12 at 14:42
Okay, i solved it! 'GLuint v3InvWavelength = glGetUniformLocation(programAtmosphere,"vInvWavelength");' should be 'GLuint v3InvWavelength = glGetUniformLocation(programAtmosphere,"v3InvWavelength");' – user1419305 Oct 22 '12 at 20:18