2019-11-21 20:57:46 +00:00
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#include <srgb.glsl>
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2019-07-21 17:57:25 +00:00
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struct Light {
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vec4 light_pos;
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vec4 light_col;
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};
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layout (std140)
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uniform u_lights {
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Light lights[32];
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};
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2019-09-25 12:00:00 +00:00
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struct Shadow {
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vec4 shadow_pos_radius;
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};
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layout (std140)
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uniform u_shadows {
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Shadow shadows[24];
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};
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2019-07-21 15:04:36 +00:00
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float attenuation_strength(vec3 rpos) {
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2020-04-16 13:42:20 +00:00
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// This is not how light attenuation works at all, but it produces visually pleasing and mechanically useful properties
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float d2 = rpos.x * rpos.x + rpos.y * rpos.y + rpos.z * rpos.z;
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return max(2.0 / pow(d2 + 10, 0.35) - pow(d2 / 50000.0, 0.8), 0.0);
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2019-07-21 15:04:36 +00:00
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}
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vec3 light_at(vec3 wpos, vec3 wnorm) {
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2019-07-29 12:00:56 +00:00
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const float LIGHT_AMBIENCE = 0.025;
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2019-07-21 15:04:36 +00:00
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vec3 light = vec3(0);
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2019-09-25 12:00:00 +00:00
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for (uint i = 0u; i < light_shadow_count.x; i ++) {
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2019-07-29 12:00:56 +00:00
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2019-08-03 09:55:45 +00:00
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// Only access the array once
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Light L = lights[i];
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2019-07-21 15:04:36 +00:00
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2019-08-03 09:55:45 +00:00
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vec3 light_pos = L.light_pos.xyz;
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// Pre-calculate difference between light and fragment
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vec3 difference = light_pos - wpos;
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2020-04-16 13:42:20 +00:00
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float strength = attenuation_strength(difference);
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2019-08-03 09:55:45 +00:00
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// Multiply the vec3 only once
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2019-08-04 19:54:08 +00:00
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vec3 color = srgb_to_linear(L.light_col.rgb) * (strength * L.light_col.a);
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2019-08-03 09:55:45 +00:00
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2020-01-27 01:51:38 +00:00
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light += color * (max(0, max(dot(normalize(difference), wnorm), 0.15)) + LIGHT_AMBIENCE);
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2019-07-21 15:04:36 +00:00
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}
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return light;
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2019-09-23 19:37:50 +00:00
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}
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2019-09-25 12:00:00 +00:00
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float shadow_at(vec3 wpos, vec3 wnorm) {
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float shadow = 1.0;
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for (uint i = 0u; i < light_shadow_count.y; i ++) {
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// Only access the array once
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Shadow S = shadows[i];
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vec3 shadow_pos = S.shadow_pos_radius.xyz;
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float radius = S.shadow_pos_radius.w;
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vec3 diff = shadow_pos - wpos;
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if (diff.z >= 0.0) {
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2020-01-24 09:50:03 +00:00
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diff.z = -sign(diff.z) * diff.z * 0.1;
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2019-09-25 12:00:00 +00:00
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}
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float shade = max(pow(diff.x * diff.x + diff.y * diff.y + diff.z * diff.z, 0.25) / pow(radius * radius * 0.5, 0.25), 0.5);
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shadow = min(shadow, shade);
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}
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2020-04-26 19:01:23 +00:00
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// NOTE: Squared to compenate for prior saturation.
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return min(shadow * shadow, 1.0);
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2019-09-25 12:00:00 +00:00
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}
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2020-04-04 00:32:39 +00:00
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2020-04-21 16:25:19 +00:00
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// Returns computed maximum intensity.
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float lights_at(vec3 wpos, vec3 wnorm, vec3 cam_to_frag, vec3 k_a, vec3 k_d, vec3 k_s, float alpha, inout vec3 emitted_light, inout vec3 reflected_light/*, out float shadow*/) {
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2020-04-04 00:32:39 +00:00
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// shadow = 0.0;
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vec3 ambient_light = vec3(0.0);
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2020-04-26 19:01:23 +00:00
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const float LIGHT_AMBIENCE = 0.5;
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2020-04-04 00:32:39 +00:00
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for (uint i = 0u; i < light_shadow_count.x; i ++) {
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// Only access the array once
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Light L = lights[i];
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vec3 light_pos = L.light_pos.xyz;
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// Pre-calculate difference between light and fragment
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vec3 difference = light_pos - wpos;
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2020-04-24 14:12:20 +00:00
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float distance_2 = dot(difference, difference);
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2020-04-04 00:32:39 +00:00
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2020-04-24 14:12:20 +00:00
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// float strength = attenuation_strength(difference);// pow(attenuation_strength(difference), 0.6);
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// // NOTE: This normalizes strength to 1.0 at the center of the point source.
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// float strength = 1.0 / (1.0 + distance_2);
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float strength = 1.0 / distance_2;
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2020-04-04 00:32:39 +00:00
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// Multiply the vec3 only once
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2020-04-26 19:01:23 +00:00
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const float PI = 3.1415926535897932384626433832795;
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const float PI_2 = 2 * PI;
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float square_factor = /*2.0 * PI_2 * */2.0 * L.light_col.a;
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vec3 color = /*srgb_to_linear*/L.light_col.rgb;
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2020-04-04 00:32:39 +00:00
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// // Only access the array once
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// Shadow S = shadows[i];
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// vec3 shadow_pos = S.shadow_pos_radius.xyz;
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// float radius = S.shadow_pos_radius.w;
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// vec3 diff = shadow_pos - wpos;
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// if (diff.z >= 0.0) {
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// diff.z = -sign(diff.z) * diff.z * 0.1;
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// }
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// float shade = max(pow(diff.x * diff.x + diff.y * diff.y + diff.z * diff.z, 0.25) / pow(radius * radius * 0.5, 0.25), /*0.5*/0.0);
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// shadow = min(shadow, shade);
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// Compute reflectance.
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2020-04-24 14:12:20 +00:00
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vec3 light_dir = -difference / sqrt(distance_2); // normalize(-difference);
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// light_dir = faceforward(light_dir, wnorm, light_dir);
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2020-04-26 19:01:23 +00:00
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bool is_direct = dot(-light_dir, wnorm) > 0.0;
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// reflected_light += color * (distance_2 == 0.0 ? vec3(1.0) : light_reflection_factor(wnorm, cam_to_frag, light_dir, k_d, k_s, alpha));
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vec3 direct_light = color * strength * square_factor * light_reflection_factor(wnorm, cam_to_frag, is_direct ? light_dir : -light_dir, k_d, k_s, alpha);
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reflected_light += is_direct ? direct_light * square_factor : vec3(0.0);
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ambient_light += is_direct ? vec3(0.0) : direct_light * LIGHT_AMBIENCE;
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2020-04-04 00:32:39 +00:00
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// light += color * (max(0, max(dot(normalize(difference), wnorm), 0.15)) + LIGHT_AMBIENCE);
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// Compute emiittance.
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// float ambient_sides = clamp(mix(0.15, 0.0, abs(dot(wnorm, light_dir)) * 10000.0), 0.0, 0.15);
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2020-04-26 19:01:23 +00:00
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// float ambient_sides = 0.0;// max(dot(wnorm, light_dir) - 0.15, 0.15);
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// // float ambient_sides = 0.0;
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// ambient_light += color * (ambient_sides + LIGHT_AMBIENCE);
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2020-04-04 00:32:39 +00:00
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}
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// shadow = shadow_at(wpos, wnorm);
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// float shadow = shadow_at(wpos, wnorm);
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2020-04-26 19:01:23 +00:00
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emitted_light += k_a * ambient_light/* * shadow*/;// min(shadow, 1.0);
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2020-04-21 16:25:19 +00:00
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return 1.0;//ambient_light;
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2020-04-04 00:32:39 +00:00
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}
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