109 lines
4.1 KiB
GLSL
109 lines
4.1 KiB
GLSL
#version 330 core
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layout(location = 0) in vec4 pos;
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layout(location = 2) in vec4 vertex_color;
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layout(location = 3) in vec4 multitexcoord0;
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layout(location = 10) in vec4 usrAttr1;
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layout(location = 11) in vec4 usrAttr2;
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out vec2 texcoord;
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out vec4 cloud_color;
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uniform float range;
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uniform float detail_range;
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uniform mat4 osg_ModelViewMatrix;
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uniform mat4 osg_ModelViewProjectionMatrix;
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uniform mat4 osg_ViewMatrixInverse;
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uniform vec3 fg_SunDirectionWorld;
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// sun.glsl
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vec3 get_sun_radiance(vec3 p);
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void cloud_common_vert(out vec4 vs_pos, out vec4 ws_pos)
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{
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float alpha_factor = usrAttr1.r;
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float shade_factor = usrAttr1.g;
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float cloud_height = usrAttr1.b;
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float bottom_factor = usrAttr2.r;
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float middle_factor = usrAttr2.g;
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float top_factor = usrAttr2.b;
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texcoord = multitexcoord0.st;
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// XXX: Should be sent as an uniform
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mat4 inverseModelViewMatrix = inverse(osg_ModelViewMatrix);
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vec4 ep = inverseModelViewMatrix * vec4(0.0, 0.0, 0.0, 1.0);
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vec4 l = inverseModelViewMatrix * vec4(0.0, 0.0, 1.0, 1.0);
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vec3 u = normalize(ep.xyz - l.xyz);
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// Find a rotation matrix that rotates 1,0,0 into u. u, r and w are
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// the columns of that matrix.
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vec3 absu = abs(u);
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vec3 r = normalize(vec3(-u.y, u.x, 0.0));
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vec3 w = cross(u, r);
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// Do the matrix multiplication by [ u r w pos]. Assume no
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// scaling in the homogeneous component of pos.
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vec4 final_pos = vec4(0.0, 0.0, 0.0, 1.0);
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final_pos.xyz = pos.x * u;
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final_pos.xyz += pos.y * r;
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final_pos.xyz += pos.z * w;
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// Apply Z scaling to allow sprites to be squashed in the z-axis
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final_pos.z = final_pos.z * vertex_color.w;
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// Now shift the sprite to the correct position in the cloud.
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final_pos.xyz += vertex_color.xyz;
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// Determine the position - used for fog and shading calculations
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float fogCoord = length(vec3(osg_ModelViewMatrix * vec4(vertex_color.xyz, 1.0)));
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float center_dist = length(vec3(osg_ModelViewMatrix * vec4(0.0, 0.0, 0.0, 1.0)));
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if ((fogCoord > detail_range) && (fogCoord > center_dist) && (shade_factor < 0.7)) {
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// More than detail_range away, so discard all sprites on opposite side of
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// cloud center by shifting them beyond the view fustrum
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gl_Position = vec4(0.0, 0.0, 10.0, 1.0);
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cloud_color = vec4(0.0);
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} else {
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gl_Position = osg_ModelViewProjectionMatrix * final_pos;
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vs_pos = osg_ModelViewMatrix * final_pos;
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ws_pos = osg_ViewMatrixInverse * vs_pos;
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// Determine a lighting normal based on the vertex position from the
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// center of the cloud, so that sprite on the opposite side of the cloud
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// to the sun are darker.
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vec3 n = normalize(vec3(osg_ViewMatrixInverse *
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osg_ModelViewMatrix * vec4(-final_pos.xyz, 0.0)));
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float NdotL = dot(-fg_SunDirectionWorld, n);
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// Determine the shading of the vertex. We shade it based on it's position
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// in the cloud relative to the sun, and it's vertical position in the cloud.
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float shade = mix(shade_factor, top_factor, smoothstep(-0.3, 0.3, NdotL));
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if (final_pos.z < 0.5 * cloud_height) {
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shade = min(shade, mix(bottom_factor, middle_factor,
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final_pos.z * 2.0 / cloud_height));
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} else {
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shade = min(shade, mix(middle_factor, top_factor,
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final_pos.z * 2.0 / cloud_height - 1.0));
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}
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cloud_color.rgb = shade * get_sun_radiance(ws_pos.xyz);
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if ((fogCoord > (0.9 * detail_range))
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&& (fogCoord > center_dist)
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&& (shade_factor < 0.7)) {
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// cloudlet is almost at the detail range, so fade it out.
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cloud_color.a = 1.0 - smoothstep(0.9 * detail_range, detail_range, fogCoord);
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} else {
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// As we get within 100m of the sprite, it is faded out.
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// Equally at large distances it also fades out.
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cloud_color.a = min(smoothstep(10.0, 100.0, fogCoord),
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1.0 - smoothstep(0.9 * range, range, fogCoord));
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}
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cloud_color.a *= alpha_factor;
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}
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}
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