2020-02-16 20:37:28 +01:00
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uniform sampler2D baseTexture;
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uniform vec4 emissiveColor;
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uniform vec4 skyBgColor;
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uniform float fogDistance;
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uniform vec3 eyePosition;
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varying vec3 vNormal;
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varying vec3 vPosition;
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varying vec3 worldPosition;
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2020-10-25 18:01:03 +01:00
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varying lowp vec4 varColor;
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2020-12-22 14:53:52 +01:00
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#ifdef GL_ES
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varying mediump vec2 varTexCoord;
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#else
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centroid varying vec2 varTexCoord;
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#endif
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2020-02-16 20:37:28 +01:00
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varying vec3 eyeVec;
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varying float vIDiff;
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const float e = 2.718281828459;
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const float BS = 10.0;
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const float fogStart = FOG_START;
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2020-10-25 18:01:03 +01:00
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const float fogShadingParameter = 1.0 / (1.0 - fogStart);
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2020-02-16 20:37:28 +01:00
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2021-06-06 18:51:21 +02:00
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#ifdef ENABLE_DYNAMIC_SHADOWS
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// shadow texture
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uniform sampler2D ShadowMapSampler;
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// shadow uniforms
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uniform vec3 v_LightDirection;
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uniform float f_textureresolution;
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uniform mat4 m_ShadowViewProj;
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uniform float f_shadowfar;
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uniform float f_timeofday;
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varying float normalOffsetScale;
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varying float adj_shadow_strength;
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varying float cosLight;
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varying float f_normal_length;
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#endif
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2020-04-06 16:06:40 +02:00
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2021-06-06 18:51:21 +02:00
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#if ENABLE_TONE_MAPPING
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2020-04-06 16:06:40 +02:00
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/* Hable's UC2 Tone mapping parameters
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A = 0.22;
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B = 0.30;
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C = 0.10;
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D = 0.20;
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E = 0.01;
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F = 0.30;
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W = 11.2;
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equation used: ((x * (A * x + C * B) + D * E) / (x * (A * x + B) + D * F)) - E / F
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*/
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vec3 uncharted2Tonemap(vec3 x)
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{
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return ((x * (0.22 * x + 0.03) + 0.002) / (x * (0.22 * x + 0.3) + 0.06)) - 0.03333;
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}
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vec4 applyToneMapping(vec4 color)
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{
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color = vec4(pow(color.rgb, vec3(2.2)), color.a);
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const float gamma = 1.6;
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const float exposureBias = 5.5;
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color.rgb = uncharted2Tonemap(exposureBias * color.rgb);
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2020-12-04 20:16:12 +01:00
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// Precalculated white_scale from
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2020-04-06 16:06:40 +02:00
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//vec3 whiteScale = 1.0 / uncharted2Tonemap(vec3(W));
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vec3 whiteScale = vec3(1.036015346);
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color.rgb *= whiteScale;
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return vec4(pow(color.rgb, vec3(1.0 / gamma)), color.a);
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}
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#endif
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2021-06-06 18:51:21 +02:00
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#ifdef ENABLE_DYNAMIC_SHADOWS
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const float bias0 = 0.9;
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const float zPersFactor = 0.5;
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const float bias1 = 1.0 - bias0;
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vec4 getPerspectiveFactor(in vec4 shadowPosition)
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{
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float pDistance = length(shadowPosition.xy);
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float pFactor = pDistance * bias0 + bias1;
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shadowPosition.xyz *= vec3(vec2(1.0 / pFactor), zPersFactor);
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return shadowPosition;
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}
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// assuming near is always 1.0
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float getLinearDepth()
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{
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return 2.0 * f_shadowfar / (f_shadowfar + 1.0 - (2.0 * gl_FragCoord.z - 1.0) * (f_shadowfar - 1.0));
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}
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vec3 getLightSpacePosition()
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{
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vec4 pLightSpace;
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float normalBias = 0.0005 * getLinearDepth() * cosLight + normalOffsetScale;
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pLightSpace = m_ShadowViewProj * vec4(worldPosition + normalBias * normalize(vNormal), 1.0);
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pLightSpace = getPerspectiveFactor(pLightSpace);
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return pLightSpace.xyz * 0.5 + 0.5;
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}
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#ifdef COLORED_SHADOWS
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// c_precision of 128 fits within 7 base-10 digits
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const float c_precision = 128.0;
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const float c_precisionp1 = c_precision + 1.0;
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float packColor(vec3 color)
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{
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return floor(color.b * c_precision + 0.5)
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+ floor(color.g * c_precision + 0.5) * c_precisionp1
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+ floor(color.r * c_precision + 0.5) * c_precisionp1 * c_precisionp1;
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}
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vec3 unpackColor(float value)
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{
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vec3 color;
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color.b = mod(value, c_precisionp1) / c_precision;
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color.g = mod(floor(value / c_precisionp1), c_precisionp1) / c_precision;
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color.r = floor(value / (c_precisionp1 * c_precisionp1)) / c_precision;
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return color;
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}
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vec4 getHardShadowColor(sampler2D shadowsampler, vec2 smTexCoord, float realDistance)
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{
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vec4 texDepth = texture2D(shadowsampler, smTexCoord.xy).rgba;
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float visibility = step(0.0, (realDistance-2e-5) - texDepth.r);
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vec4 result = vec4(visibility, vec3(0.0,0.0,0.0));//unpackColor(texDepth.g));
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if (visibility < 0.1) {
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visibility = step(0.0, (realDistance-2e-5) - texDepth.r);
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result = vec4(visibility, unpackColor(texDepth.a));
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}
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return result;
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}
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#else
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float getHardShadow(sampler2D shadowsampler, vec2 smTexCoord, float realDistance)
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{
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float texDepth = texture2D(shadowsampler, smTexCoord.xy).r;
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float visibility = step(0.0, (realDistance-2e-5) - texDepth);
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return visibility;
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}
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#endif
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#if SHADOW_FILTER == 2
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#define PCFBOUND 3.5
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#define PCFSAMPLES 64.0
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#elif SHADOW_FILTER == 1
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#define PCFBOUND 1.5
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#if defined(POISSON_FILTER)
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#define PCFSAMPLES 32.0
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#else
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#define PCFSAMPLES 16.0
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#endif
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#else
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#define PCFBOUND 0.0
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#if defined(POISSON_FILTER)
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#define PCFSAMPLES 4.0
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#else
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#define PCFSAMPLES 1.0
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#endif
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#endif
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#ifdef POISSON_FILTER
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const vec2[64] poissonDisk = vec2[64](
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vec2(0.170019, -0.040254),
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vec2(-0.299417, 0.791925),
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vec2(0.645680, 0.493210),
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vec2(-0.651784, 0.717887),
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vec2(0.421003, 0.027070),
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vec2(-0.817194, -0.271096),
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vec2(-0.705374, -0.668203),
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vec2(0.977050, -0.108615),
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vec2(0.063326, 0.142369),
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vec2(0.203528, 0.214331),
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vec2(-0.667531, 0.326090),
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vec2(-0.098422, -0.295755),
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vec2(-0.885922, 0.215369),
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vec2(0.566637, 0.605213),
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vec2(0.039766, -0.396100),
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vec2(0.751946, 0.453352),
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vec2(0.078707, -0.715323),
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vec2(-0.075838, -0.529344),
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vec2(0.724479, -0.580798),
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vec2(0.222999, -0.215125),
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vec2(-0.467574, -0.405438),
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vec2(-0.248268, -0.814753),
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vec2(0.354411, -0.887570),
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vec2(0.175817, 0.382366),
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vec2(0.487472, -0.063082),
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vec2(0.355476, 0.025357),
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vec2(-0.084078, 0.898312),
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vec2(0.488876, -0.783441),
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vec2(0.470016, 0.217933),
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vec2(-0.696890, -0.549791),
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vec2(-0.149693, 0.605762),
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vec2(0.034211, 0.979980),
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vec2(0.503098, -0.308878),
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vec2(-0.016205, -0.872921),
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vec2(0.385784, -0.393902),
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vec2(-0.146886, -0.859249),
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vec2(0.643361, 0.164098),
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vec2(0.634388, -0.049471),
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vec2(-0.688894, 0.007843),
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vec2(0.464034, -0.188818),
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vec2(-0.440840, 0.137486),
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vec2(0.364483, 0.511704),
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vec2(0.034028, 0.325968),
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vec2(0.099094, -0.308023),
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vec2(0.693960, -0.366253),
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vec2(0.678884, -0.204688),
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vec2(0.001801, 0.780328),
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vec2(0.145177, -0.898984),
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vec2(0.062655, -0.611866),
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vec2(0.315226, -0.604297),
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vec2(-0.780145, 0.486251),
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vec2(-0.371868, 0.882138),
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vec2(0.200476, 0.494430),
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vec2(-0.494552, -0.711051),
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vec2(0.612476, 0.705252),
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vec2(-0.578845, -0.768792),
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vec2(-0.772454, -0.090976),
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vec2(0.504440, 0.372295),
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vec2(0.155736, 0.065157),
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vec2(0.391522, 0.849605),
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vec2(-0.620106, -0.328104),
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vec2(0.789239, -0.419965),
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vec2(-0.545396, 0.538133),
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vec2(-0.178564, -0.596057)
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);
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#ifdef COLORED_SHADOWS
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vec4 getShadowColor(sampler2D shadowsampler, vec2 smTexCoord, float realDistance)
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{
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vec2 clampedpos;
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vec4 visibility = vec4(0.0);
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float texture_size = 1.0 / (f_textureresolution * 0.5);
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int init_offset = int(floor(mod(((smTexCoord.x * 34.0) + 1.0) * smTexCoord.y, 64.0-PCFSAMPLES)));
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int end_offset = int(PCFSAMPLES) + init_offset;
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for (int x = init_offset; x < end_offset; x++) {
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clampedpos = poissonDisk[x] * texture_size * SOFTSHADOWRADIUS + smTexCoord.xy;
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visibility += getHardShadowColor(shadowsampler, clampedpos.xy, realDistance);
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}
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return visibility / PCFSAMPLES;
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}
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#else
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float getShadow(sampler2D shadowsampler, vec2 smTexCoord, float realDistance)
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{
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vec2 clampedpos;
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float visibility = 0.0;
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float texture_size = 1.0 / (f_textureresolution * 0.5);
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int init_offset = int(floor(mod(((smTexCoord.x * 34.0) + 1.0) * smTexCoord.y, 64.0-PCFSAMPLES)));
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int end_offset = int(PCFSAMPLES) + init_offset;
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for (int x = init_offset; x < end_offset; x++) {
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clampedpos = poissonDisk[x] * texture_size * SOFTSHADOWRADIUS + smTexCoord.xy;
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visibility += getHardShadow(shadowsampler, clampedpos.xy, realDistance);
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}
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return visibility / PCFSAMPLES;
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}
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#endif
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#else
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/* poisson filter disabled */
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#ifdef COLORED_SHADOWS
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vec4 getShadowColor(sampler2D shadowsampler, vec2 smTexCoord, float realDistance)
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{
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vec2 clampedpos;
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vec4 visibility = vec4(0.0);
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float sradius=0.0;
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if( PCFBOUND>0)
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sradius = SOFTSHADOWRADIUS / PCFBOUND;
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float texture_size = 1.0 / (f_textureresolution * 0.5);
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float y, x;
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// basic PCF filter
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for (y = -PCFBOUND; y <= PCFBOUND; y += 1.0)
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for (x = -PCFBOUND; x <= PCFBOUND; x += 1.0) {
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clampedpos = vec2(x,y) * texture_size* sradius + smTexCoord.xy;
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visibility += getHardShadowColor(shadowsampler, clampedpos.xy, realDistance);
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}
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return visibility / PCFSAMPLES;
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}
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#else
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float getShadow(sampler2D shadowsampler, vec2 smTexCoord, float realDistance)
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{
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vec2 clampedpos;
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float visibility = 0.0;
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float sradius=0.0;
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if( PCFBOUND>0)
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sradius = SOFTSHADOWRADIUS / PCFBOUND;
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float texture_size = 1.0 / (f_textureresolution * 0.5);
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float y, x;
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// basic PCF filter
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for (y = -PCFBOUND; y <= PCFBOUND; y += 1.0)
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for (x = -PCFBOUND; x <= PCFBOUND; x += 1.0) {
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clampedpos = vec2(x,y) * texture_size * sradius + smTexCoord.xy;
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visibility += getHardShadow(shadowsampler, clampedpos.xy, realDistance);
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}
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return visibility / PCFSAMPLES;
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}
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#endif
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#endif
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#endif
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2020-02-16 20:37:28 +01:00
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void main(void)
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{
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vec3 color;
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2020-10-25 18:01:03 +01:00
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vec2 uv = varTexCoord.st;
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2020-02-16 20:37:28 +01:00
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vec4 base = texture2D(baseTexture, uv).rgba;
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2020-08-25 20:49:51 +02:00
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// If alpha is zero, we can just discard the pixel. This fixes transparency
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2020-10-25 18:01:03 +01:00
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// on GPUs like GC7000L, where GL_ALPHA_TEST is not implemented in mesa,
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// and also on GLES 2, where GL_ALPHA_TEST is missing entirely.
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2021-09-10 21:59:29 +02:00
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#ifdef USE_DISCARD
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if (base.a == 0.0)
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discard;
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#endif
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#ifdef USE_DISCARD_REF
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if (base.a < 0.5)
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2020-08-25 20:49:51 +02:00
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discard;
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#endif
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2020-02-16 20:37:28 +01:00
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color = base.rgb;
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vec4 col = vec4(color.rgb, base.a);
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2020-10-25 18:01:03 +01:00
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col.rgb *= varColor.rgb;
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2020-02-16 20:37:28 +01:00
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col.rgb *= emissiveColor.rgb * vIDiff;
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2020-06-09 21:38:09 +02:00
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2021-06-06 18:51:21 +02:00
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#ifdef ENABLE_DYNAMIC_SHADOWS
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float shadow_int = 0.0;
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vec3 shadow_color = vec3(0.0, 0.0, 0.0);
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vec3 posLightSpace = getLightSpacePosition();
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#ifdef COLORED_SHADOWS
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vec4 visibility = getShadowColor(ShadowMapSampler, posLightSpace.xy, posLightSpace.z);
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shadow_int = visibility.r;
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shadow_color = visibility.gba;
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#else
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shadow_int = getShadow(ShadowMapSampler, posLightSpace.xy, posLightSpace.z);
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#endif
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if (f_normal_length != 0 && cosLight <= 0.001) {
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shadow_int = clamp(shadow_int + 0.5 * abs(cosLight), 0.0, 1.0);
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}
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shadow_int = 1.0 - (shadow_int * adj_shadow_strength);
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col.rgb = mix(shadow_color, col.rgb, shadow_int) * shadow_int;
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#endif
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2020-12-19 20:57:10 +01:00
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#if ENABLE_TONE_MAPPING
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2020-04-06 16:06:40 +02:00
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col = applyToneMapping(col);
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#endif
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|
2020-02-16 20:37:28 +01:00
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// Due to a bug in some (older ?) graphics stacks (possibly in the glsl compiler ?),
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// the fog will only be rendered correctly if the last operation before the
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// clamp() is an addition. Else, the clamp() seems to be ignored.
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// E.g. the following won't work:
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// float clarity = clamp(fogShadingParameter
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// * (fogDistance - length(eyeVec)) / fogDistance), 0.0, 1.0);
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// As additions usually come for free following a multiplication, the new formula
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// should be more efficient as well.
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// Note: clarity = (1 - fogginess)
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float clarity = clamp(fogShadingParameter
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- fogShadingParameter * length(eyeVec) / fogDistance, 0.0, 1.0);
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col = mix(skyBgColor, col, clarity);
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gl_FragColor = vec4(col.rgb, base.a);
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}
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