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https://gitlab.com/veloren/veloren.git
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114 lines
5.3 KiB
GLSL
114 lines
5.3 KiB
GLSL
#version 420 core
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#include <constants.glsl>
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#define LIGHTING_TYPE LIGHTING_TYPE_REFLECTION
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#define LIGHTING_REFLECTION_KIND LIGHTING_REFLECTION_KIND_GLOSSY
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#if (FLUID_MODE == FLUID_MODE_CHEAP)
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#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_IMPORTANCE
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#elif (FLUID_MODE == FLUID_MODE_SHINY)
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#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_RADIANCE
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#endif
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#define LIGHTING_DISTRIBUTION_SCHEME LIGHTING_DISTRIBUTION_SCHEME_VOXEL
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#define LIGHTING_DISTRIBUTION LIGHTING_DISTRIBUTION_BECKMANN
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#include <globals.glsl>
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#include <srgb.glsl>
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#include <lod.glsl>
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layout(location = 0) in vec2 v_pos;
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layout(location = 0) out vec3 f_pos;
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layout(location = 1) out vec3 f_norm;
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layout(location = 2) out float pull_down;
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// out vec2 v_pos_orig;
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// out vec4 f_square;
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// out vec4 f_shadow;
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// out float f_light;
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void main() {
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// Find distances between vertices. Pull down a tiny bit more to reduce z fighting near the ocean.
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f_pos = lod_pos(v_pos, focus_pos.xy) - vec3(0, 0, 0.1);
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vec2 dims = vec2(1.0 / view_distance.y);
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vec4 f_square = focus_pos.xyxy + vec4(splay(v_pos - dims), splay(v_pos + dims));
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f_norm = lod_norm(f_pos.xy, f_square);
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// v_pos_orig = v_pos;
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// f_pos = lod_pos(focus_pos.xy + splay(v_pos) * /*1000000.0*/(1 << 20), square);
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// f_norm = lod_norm(f_pos.xy);
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// f_shadow = textureBicubic(t_horizon, pos_to_tex(f_pos.xy));
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// TODO: disabled because it isn't designed to work with reverse depth
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//float dist = distance(focus_pos.xy, f_pos.xy);
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//pull_down = 0.2 / pow(dist / (view_distance.x * 0.9), 20.0);
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pull_down = 1.0 / pow(distance(focus_pos.xy, f_pos.xy) / (view_distance.x * 0.95), 20.0);
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f_pos.z -= pull_down;
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#ifdef EXPERIMENTAL_CURVEDWORLD
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f_pos.z -= pow(distance(f_pos.xy + focus_off.xy, focus_pos.xy + focus_off.xy) * 0.05, 2);
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#endif
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// f_pos.z -= 100.0 * pow(1.0 + 0.01 / view_distance.x, -pow(distance(focus_pos.xy, f_pos.xy), 2.0));
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// f_pos.z = mix(-f_pos.z, f_pos.z, view_distance.x <= distance(focus_pos.xy, f_pos.xy) + 32.0);
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// bool faces_fluid = false;// bool((f_pos_norm >> 28) & 0x1u);
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// // TODO: Measure real water surface altitude here.
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// float surfaceAlt = mix(view_distance.z, /*floor*/(min(f_pos.z, floor(alt_at_real(cam_pos.xy)))), medium.x);
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// // float surfaceAlt = mix(view_distance.z, floor(max(cam_pos.z, alt_at_real(cam_pos.xy))), medium.x);
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// // float surfaceAlt = min(floor(f_pos.z), floor(alt_at_real(cam_pos.xy))); // faces_fluid ? max(ceil(f_pos.z), floor(f_alt)) : floor(f_alt);
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// f_pos.z -= max(sign(view_distance.x - distance(focus_pos.xy, f_pos.xy)), 0.0) * (32.0 * view_distance.z / 255 + 32.0 * max(0.0, f_pos.z - cam_pos.z));
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// f_pos.z -= 0.1 + max(view_distance.x - distance(focus_pos.xy, f_pos.xy), 0.0) * (1.0 + max(1.0, ceil(f_pos.z - focus_pos.z)));
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// vec3 wRayinitial = f_pos; // cam_pos.z < f_pos.z ? f_pos : cam_pos.xyz;
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// vec3 wRayfinal = cam_pos.xyz; // cam_pos.z < f_pos.z ? cam_pos.xyz : f_pos;
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// wRayfinal = dot(wRayfinal - wRayinitial, focus_pos.xyz - cam_pos.xyz) < 0.0 ? wRayfinal : wRayinitial;
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// vec3 wRayNormal = /*surfaceAlt < wRayinitial.z ? vec3(0.0, 0.0, -1.0) : */vec3(0.0, 0.0, 1.0);
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// float n_camera = mix(1.0, 1.3325, medium.x);
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// float n_vertex = faces_fluid ? 1.3325 : 1.0;
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// float n1 = n_vertex; // cam_pos.z < f_pos.z ? n_vertex : n_camera;
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// float n2 = n_camera; // cam_pos.z < f_pos.z ? n_camera : n_vertex;
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// float wRayLength0 = length(wRayfinal - wRayinitial);
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// vec3 wRayDir = (wRayfinal - wRayinitial) / wRayLength0;
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// vec3 wPoint = wRayfinal;
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// bool wIntersectsSurface = IntersectRayPlane(wRayinitial, wRayDir, vec3(0.0, 0.0, surfaceAlt), -wRayNormal, wPoint);
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// float wRayLength = length(wPoint - wRayinitial);
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// wPoint = wRayLength < wRayLength0 ? wPoint : wRayfinal;
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// wRayLength = min(wRayLength, wRayLength0); // min(max_length, dot(wRayfinal - wpos, defaultpos - wpos));
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// // vec3 wRayDir2 = (wRayfinal - wRayinitial) / wRayLength;
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// vec3 wRayDir3 = (dot(wRayDir, wRayNormal) < 0.0 && surfaceAlt < wRayinitial.z && wIntersectsSurface/* && medium.x == 1u*/) ? refract(wRayDir, wRayNormal, n2 / n1) : wRayDir;
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// // wPoint -= wRayDir3 * wRayLength * n2 / n1;
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// vec3 newRay = (dot(wRayDir3, focus_pos.xyz - cam_pos.xyz) < 0.0 && /*dot(wRayDir, wRayNormal) > 0.0 && *//*surfaceAlt < wRayinitial.z && */wIntersectsSurface && medium.x == 1u) ? wPoint - wRayDir3 * wRayLength * n2 / n1/*wPoint - wRayDir3 * wRayLength * n2 / n1*/ : f_pos;// - (wRayfinal - wPoint) * n2 / n1; // wPoint + n2 * (wRayfinal - wPoint) - n2 / n1 * wRayLength * wRayDir3;
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// newRay.z -= max(view_distance.x - distance(focus_pos.xy, f_pos.xy), 0.0) * (1.0 + max(0.0, f_pos.z - focus_pos.z));
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// f_light = 1.0;
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gl_Position =
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/* proj_mat *
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view_mat * */
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all_mat *
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vec4(f_pos/*newRay*/, 1);
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// Pull up the depth to avoid drawing over voxels (biased according to VD)
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// TODO: disabled because it isn't designed to work with reverse depth
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//gl_Position.z += 0.1 * clamp((view_distance.x * 1.0 - dist) * 0.01, 0, 1);
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// gl_Position.z = -gl_Position.z / gl_Position.w;
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// gl_Position.z = -gl_Position.z / gl_Position.w;
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// gl_Position.z = -gl_Position.z * gl_Position.w;
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// gl_Position.z = -gl_Position.z / 100.0;
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// gl_Position.z = -1000.0 / (gl_Position.z + 10000.0);
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}
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