2024-08-30 14:01:46 +00:00
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#ifndef SHADOWMAP_GLSL
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#define SHADOWMAP_GLSL
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2024-08-30 10:19:50 +00:00
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#include "utils.glsl"
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2024-08-29 15:32:34 +00:00
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uniform bool u_shadow_receiver;
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uniform float u_cascade_distances[MAX_LIGHTS * NUM_SHADOW_CASCADES];
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uniform samplerCube shadowMap[MAX_LIGHTS];
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uniform sampler2D shadowMap2D[MAX_LIGHTS * NUM_SHADOW_CASCADES];
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uniform sampler3D shadow_offsets;
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uniform int shadow_filter_size;
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uniform int shadow_window_size;
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2024-08-30 21:23:07 +00:00
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// const float bias_modifier[NUM_SHADOW_CASCADES] = float[NUM_SHADOW_CASCADES](0.95, 0.35, 0.20, 0.1, 0.1, 0.1);
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const float bias_modifier[NUM_SHADOW_CASCADES] = float[NUM_SHADOW_CASCADES](1.0, 6.0, 9.0, 16.0);
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// const float bias_modifier[NUM_SHADOW_CASCADES] = float[NUM_SHADOW_CASCADES](0.95, 0.35, 0.20, 0.15);
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2024-09-02 13:45:52 +00:00
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vec2 shadow_vsm_variance(vec3 dir, int light_index, float distance, float min_variance, float variance_transition) {
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// Calculate the variance
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vec2 moments = texture(shadowMap[light_index], dir).rg;
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float variance = max(moments.y - (moments.x * moments.x), min_variance);
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float d = distance - moments.x;
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return vec2(linstep(variance_transition, 1.0, variance / (variance + d * d)), moments.x);
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}
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//// From http://fabiensanglard.net/shadowmappingVSM/index.php
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float shadow_vsm(float distance, vec3 dir, int light_index, float min_variance, float variance_transition, float shadow_softness_raw) {
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distance = distance / 200;
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float shadow_softness = shadow_softness_raw * 10.0;
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// Get the offset coordinates
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ivec3 ofs_coord = ivec3(0);
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vec2 ofs = mod(gl_FragCoord.xy, vec2(shadow_window_size));
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ofs_coord.yz = ivec2(ofs);
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float ofs_sum = 0.0;
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int samples_div2 = int(shadow_filter_size * shadow_filter_size / 2.0);
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vec4 sc = vec4(dir, 1.0);
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sc.z = dir.z;
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vec2 texelSize = 1.0 / textureSize(shadowMap[light_index], 0);
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for (int i = 0; i < 4; i++) {
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ofs_coord.x = i;
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vec4 offsets = texelFetch(shadow_offsets, ofs_coord, 0) * shadow_softness;
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sc.xy = dir.xy + offsets.rg * texelSize;
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vec2 variance = shadow_vsm_variance(sc.xyz, light_index, distance, min_variance, variance_transition);
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ofs_sum += min(max(step(distance, variance.y), variance.x), 1.0);
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sc.xy = dir.xy + offsets.ba * texelSize;
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variance = shadow_vsm_variance(sc.xyz, light_index, distance, min_variance, variance_transition);
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ofs_sum += min(max(step(distance, variance.y), variance.x), 1.0);
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}
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float shadow_sum = ofs_sum / 8.0;
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if (shadow_sum != 0.0 && shadow_sum != 1.0) {
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for (int i = 4; i < samples_div2; i++) {
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ofs_coord.x = i;
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vec4 offsets = texelFetch(shadow_offsets, ofs_coord, 0) * shadow_softness;
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sc.xy = dir.xy + offsets.rg * texelSize;
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vec2 variance = shadow_vsm_variance(sc.xyz, light_index, distance, min_variance, variance_transition);
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ofs_sum += min(max(step(distance, variance.y), variance.x), 1.0);
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sc.xy = dir.xy + offsets.ba * texelSize;
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variance = shadow_vsm_variance(sc.xyz, light_index, distance, min_variance, variance_transition);
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ofs_sum += min(max(step(distance, variance.y), variance.x), 1.0);
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}
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shadow_sum = ofs_sum / (samples_div2 * 2.0);
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}
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// vec3 sampleDir = dir + (rand(vec2(v_position_ws.x, v_position_ws.y))*0.25f);
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// float shadow = 0.0;
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// vec2 moments = ;
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// // Calculate the variance
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// float variance = max(moments.y - (moments.x * moments.x), min_variance);
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// float d = distance - moments.x;
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// float p_max = linstep(variance_transition, 1.0, variance / (variance + d * d));
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return shadow_sum;//min(max(step(distance, moments.x), shadow_sum), 1.0);
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}
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float shadowmap_cascade_sample(vec2 sc, int cascade_index, float blend_factor) {
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float s1 = texture(shadowMap2D[cascade_index], sc).r;
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// float s2 = texture(shadowMap2D[cascade_index + 1], sc).r;
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// return mix(s1, s2, blend_factor);
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return s1;
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}
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float shadow_csm(float distance, vec3 lightDir, int light_index, float shadow_bias, float normal_bias, float shadow_softness) {
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// Determine which cascade to use
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int cascade_index = -1;
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int min_cascades_range = light_index * NUM_SHADOW_CASCADES;
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int max_cascades_range = min_cascades_range + NUM_SHADOW_CASCADES;
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for (int i = min_cascades_range; i < max_cascades_range; i++) {
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if (distance < u_cascade_distances[i]) {
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cascade_index = i;
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break;
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}
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}
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if (cascade_index == -1) {
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cascade_index = max_cascades_range - 1;
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}
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int matrix_index = cascade_index - min_cascades_range;
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// Blend cascades using a blend region value
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float blend_region = 200.0;
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float blend_factor = 0.0;
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if (matrix_index < NUM_SHADOW_CASCADES - 1) {
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blend_factor = 0.5;
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}
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// float cascade_start = u_cascade_distances[cascade_index];
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// float cascade_end = u_cascade_distances[cascade_index + 1];
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// float blend_start = cascade_end - blend_region;
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// if (distance > blend_start) {
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// blend_factor = smoothstep(blend_start, cascade_end, distance);
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// }
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// }
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light_t light = u_lights[light_index];
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vec4 fragPosLightSpace = light.shadow_matrix[matrix_index] * vec4(v_position_ws, 1.0);
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// Perform perspective divide
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vec3 projCoords = fragPosLightSpace.xyz / fragPosLightSpace.w;
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// Transform to [0,1] range
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projCoords = projCoords * 0.5 + 0.5;
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vec4 sc = vec4(projCoords, 1.0);
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float currentDepth = projCoords.z;
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if (currentDepth > 1.0) {
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return 1.0;
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}
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// Calculate bias
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vec3 normal = normalize(vneye.xyz);
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float bias = max(normal_bias * bias_modifier[matrix_index] * (1.0 - dot(normal, lightDir)), shadow_bias);
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bias *= 1 / (u_cascade_distances[cascade_index]);
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// CSM
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float shadow = 0.0;
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vec2 texelSize = 1.0 / textureSize(shadowMap2D[cascade_index], 0);
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// Get the offset coordinates
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ivec3 ofs_coord = ivec3(0);
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vec2 ofs = mod(gl_FragCoord.xy, vec2(shadow_window_size));
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ofs_coord.yz = ivec2(ofs);
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float ofs_sum = 0.0;
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int samples_div2 = int(shadow_filter_size * shadow_filter_size / 2.0);
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for (int i = 0; i < 4; i++) {
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ofs_coord.x = i;
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vec4 offsets = texelFetch(shadow_offsets, ofs_coord, 0) * shadow_softness;
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sc.xy = projCoords.xy + offsets.rg * texelSize;
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float csmDepth = shadowmap_cascade_sample(sc.xy, cascade_index, blend_factor);
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ofs_sum += currentDepth - bias > csmDepth ? 1.0 : 0.0;
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sc.xy = projCoords.xy + offsets.ba * texelSize;
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csmDepth = shadowmap_cascade_sample(sc.xy, cascade_index, blend_factor);
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ofs_sum += currentDepth - bias > csmDepth ? 1.0 : 0.0;
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}
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float shadow_sum = ofs_sum / 8.0;
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if (shadow_sum != 0.0 && shadow_sum != 1.0) {
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for (int i = 4; i < samples_div2; i++) {
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ofs_coord.x = i;
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vec4 offsets = texelFetch(shadow_offsets, ofs_coord, 0) * shadow_softness;
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sc.xy = projCoords.xy + offsets.rg * texelSize;
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float csmDepth = shadowmap_cascade_sample(sc.xy, cascade_index, blend_factor);
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ofs_sum += currentDepth - bias > csmDepth ? 1.0 : 0.0;
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sc.xy = projCoords.xy + offsets.ba * texelSize;
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csmDepth = shadowmap_cascade_sample(sc.xy, cascade_index, blend_factor);
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ofs_sum += currentDepth - bias > csmDepth ? 1.0 : 0.0;
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}
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shadow_sum = ofs_sum / (samples_div2 * 2.0);
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}
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return 1.0 - shadow_sum;
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}
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vec4 shadowmap(int idx, in vec4 peye, in vec4 neye) {
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vec3 fragment = vec3(peye);
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float shadowFactor = 1.0;
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light_t light = u_lights[idx];
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if (light.processed_shadows) {
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if (light.type == LIGHT_DIRECTIONAL) {
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shadowFactor = shadow_csm(-peye.z, light.dir, idx, light.shadow_bias, light.normal_bias, light.shadow_softness);
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} else if (light.type == LIGHT_POINT || light.type == LIGHT_SPOT) {
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vec3 light_pos = (view * vec4(light.pos, 1.0)).xyz;
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vec3 dir = light_pos - fragment;
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vec4 sc = inv_view * vec4(dir, 0.0);
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shadowFactor = shadow_vsm(length(dir), -sc.xyz, idx, light.min_variance, light.variance_transition, light.shadow_softness);
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}
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}
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return vec4(vec3(shadowFactor), 1.0);
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}
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vec4 shadowing(int idx) {
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if (u_shadow_receiver) {
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return shadowmap(idx, vpeye, vneye);
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} else {
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return vec4(1.0);
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}
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}
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#endif
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