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Several fixes to subsurface scattering. Closes #9530
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@ -3302,6 +3302,10 @@ void RasterizerSceneGLES3::_render_mrts(Environment *env, const CameraMatrix &p_
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if (state.used_sss) { //sss enabled
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//copy diffuse while performing sss
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Plane p = p_cam_projection.xform4(Plane(1, 0, -1, 1));
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p.normal /= p.d;
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float unit_size = p.normal.x;
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//copy normal and roughness to effect buffer
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glBindFramebuffer(GL_READ_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
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glReadBuffer(GL_COLOR_ATTACHMENT3);
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@ -3312,9 +3316,10 @@ void RasterizerSceneGLES3::_render_mrts(Environment *env, const CameraMatrix &p_
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state.sss_shader.set_conditional(SubsurfScatteringShaderGLES3::USE_17_SAMPLES, subsurface_scatter_quality == SSS_QUALITY_MEDIUM);
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state.sss_shader.set_conditional(SubsurfScatteringShaderGLES3::USE_25_SAMPLES, subsurface_scatter_quality == SSS_QUALITY_HIGH);
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state.sss_shader.set_conditional(SubsurfScatteringShaderGLES3::ENABLE_FOLLOW_SURFACE, subsurface_scatter_follow_surface);
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state.sss_shader.set_conditional(SubsurfScatteringShaderGLES3::ENABLE_STRENGTH_WEIGHTING, subsurface_scatter_weight_samples);
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state.sss_shader.bind();
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state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::MAX_RADIUS, subsurface_scatter_size);
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state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::FOVY, p_cam_projection.get_fov());
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state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::UNIT_SIZE, unit_size);
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state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::CAMERA_Z_NEAR, p_cam_projection.get_z_near());
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state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::CAMERA_Z_FAR, p_cam_projection.get_z_far());
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state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::DIR, Vector2(1, 0));
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@ -3329,14 +3334,13 @@ void RasterizerSceneGLES3::_render_mrts(Environment *env, const CameraMatrix &p_
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glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.ssao.blur_red[0]);
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glActiveTexture(GL_TEXTURE2);
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glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->depth);
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glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_COMPARE_MODE, GL_NONE);
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//glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_COMPARE_MODE, GL_NONE);
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glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->fbo); //copy to front first
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_copy_screen(true);
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glActiveTexture(GL_TEXTURE0);
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glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->color);
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state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::DIR, Vector2(0, 1));
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glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[0].fbo); // copy to base level
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@ -4955,6 +4959,7 @@ void RasterizerSceneGLES3::initialize() {
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GLOBAL_DEF("rendering/quality/subsurface_scattering/scale", 1.0);
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ProjectSettings::get_singleton()->set_custom_property_info("rendering/quality/subsurface_scattering/scale", PropertyInfo(Variant::INT, "rendering/quality/subsurface_scattering/scale", PROPERTY_HINT_RANGE, "0.01,8,0.01"));
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GLOBAL_DEF("rendering/quality/subsurface_scattering/follow_surface", false);
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GLOBAL_DEF("rendering/quality/subsurface_scattering/weight_samples", true);
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GLOBAL_DEF("rendering/quality/voxel_cone_tracing/high_quality", true);
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}
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@ -4997,6 +5002,7 @@ void RasterizerSceneGLES3::iteration() {
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shadow_filter_mode = ShadowFilterMode(int(ProjectSettings::get_singleton()->get("rendering/quality/shadows/filter_mode")));
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subsurface_scatter_follow_surface = ProjectSettings::get_singleton()->get("rendering/quality/subsurface_scattering/follow_surface");
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subsurface_scatter_weight_samples = ProjectSettings::get_singleton()->get("rendering/quality/subsurface_scattering/weight_samples");
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subsurface_scatter_quality = SubSurfaceScatterQuality(int(ProjectSettings::get_singleton()->get("rendering/quality/subsurface_scattering/quality")));
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subsurface_scatter_size = ProjectSettings::get_singleton()->get("rendering/quality/subsurface_scattering/scale");
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@ -66,6 +66,7 @@ public:
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SubSurfaceScatterQuality subsurface_scatter_quality;
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float subsurface_scatter_size;
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bool subsurface_scatter_follow_surface;
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bool subsurface_scatter_weight_samples;
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uint64_t render_pass;
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uint64_t scene_pass;
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@ -6253,7 +6253,7 @@ void RasterizerStorageGLES3::_render_target_allocate(RenderTarget *rt) {
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glBindFramebuffer(GL_FRAMEBUFFER, mm.fbo);
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glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, rt->effects.mip_maps[i].color, j);
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bool used_depth = false;
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if (j == 0 && i == 0 && rt->buffers.active == false && !rt->flags[RENDER_TARGET_NO_3D]) { //will use this one for rendering 3D
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if (j == 0 && i == 0) { //use always
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glFramebufferTexture2D(GL_FRAMEBUFFER, GL_DEPTH_ATTACHMENT, GL_TEXTURE_2D, rt->depth, 0);
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used_depth = true;
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}
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@ -17,36 +17,36 @@ void main() {
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//#define QUALIFIER uniform // some guy on the interweb says it may be faster with this
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#define QUALIFIER const
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#ifdef USE_25_SAMPLES
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const int kernel_size=25;
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QUALIFIER vec4 kernel[25] = vec4[] (
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vec4(0.530605, 0.613514, 0.739601, 0.0),
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vec4(0.000973794, 1.11862e-005, 9.43437e-007, -3.0),
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vec4(0.00333804, 7.85443e-005, 1.2945e-005, -2.52083),
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vec4(0.00500364, 0.00020094, 5.28848e-005, -2.08333),
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vec4(0.00700976, 0.00049366, 0.000151938, -1.6875),
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vec4(0.0094389, 0.00139119, 0.000416598, -1.33333),
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vec4(0.0128496, 0.00356329, 0.00132016, -1.02083),
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vec4(0.017924, 0.00711691, 0.00347194, -0.75),
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vec4(0.0263642, 0.0119715, 0.00684598, -0.520833),
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vec4(0.0410172, 0.0199899, 0.0118481, -0.333333),
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vec4(0.0493588, 0.0367726, 0.0219485, -0.1875),
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vec4(0.0402784, 0.0657244, 0.04631, -0.0833333),
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vec4(0.0211412, 0.0459286, 0.0378196, -0.0208333),
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vec4(0.0211412, 0.0459286, 0.0378196, 0.0208333),
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vec4(0.0402784, 0.0657244, 0.04631, 0.0833333),
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vec4(0.0493588, 0.0367726, 0.0219485, 0.1875),
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vec4(0.0410172, 0.0199899, 0.0118481, 0.333333),
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vec4(0.0263642, 0.0119715, 0.00684598, 0.520833),
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vec4(0.017924, 0.00711691, 0.00347194, 0.75),
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vec4(0.0128496, 0.00356329, 0.00132016, 1.02083),
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vec4(0.0094389, 0.00139119, 0.000416598, 1.33333),
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vec4(0.00700976, 0.00049366, 0.000151938, 1.6875),
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vec4(0.00500364, 0.00020094, 5.28848e-005, 2.08333),
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vec4(0.00333804, 7.85443e-005, 1.2945e-005, 2.52083),
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vec4(0.000973794, 1.11862e-005, 9.43437e-007, 3.0)
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QUALIFIER vec2 kernel[25] = vec2[] (
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vec2(0.099654,0.0),
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vec2(0.001133,-3.0),
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vec2(0.002316,-2.52083),
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vec2(0.00445,-2.08333),
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vec2(0.008033,-1.6875),
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vec2(0.013627,-1.33333),
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vec2(0.021724,-1.02083),
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vec2(0.032542,-0.75),
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vec2(0.04581,-0.520833),
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vec2(0.0606,-0.333333),
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vec2(0.075333,-0.1875),
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vec2(0.088001,-0.0833333),
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vec2(0.096603,-0.0208333),
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vec2(0.096603,0.0208333),
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vec2(0.088001,0.0833333),
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vec2(0.075333,0.1875),
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vec2(0.0606,0.333333),
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vec2(0.04581,0.520833),
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vec2(0.032542,0.75),
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vec2(0.021724,1.02083),
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vec2(0.013627,1.33333),
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vec2(0.008033,1.6875),
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vec2(0.00445,2.08333),
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vec2(0.002316,2.52),
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vec2(0.001133,3.0)
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);
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#endif //USE_25_SAMPLES
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@ -55,24 +55,24 @@ QUALIFIER vec4 kernel[25] = vec4[] (
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const int kernel_size=17;
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QUALIFIER vec4 kernel[17] = vec4[](
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vec4(0.536343, 0.624624, 0.748867, 0.0),
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vec4(0.00317394, 0.000134823, 3.77269e-005, -2.0),
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vec4(0.0100386, 0.000914679, 0.000275702, -1.53125),
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vec4(0.0144609, 0.00317269, 0.00106399, -1.125),
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vec4(0.0216301, 0.00794618, 0.00376991, -0.78125),
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vec4(0.0347317, 0.0151085, 0.00871983, -0.5),
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vec4(0.0571056, 0.0287432, 0.0172844, -0.28125),
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vec4(0.0582416, 0.0659959, 0.0411329, -0.125),
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vec4(0.0324462, 0.0656718, 0.0532821, -0.03125),
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vec4(0.0324462, 0.0656718, 0.0532821, 0.03125),
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vec4(0.0582416, 0.0659959, 0.0411329, 0.125),
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vec4(0.0571056, 0.0287432, 0.0172844, 0.28125),
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vec4(0.0347317, 0.0151085, 0.00871983, 0.5),
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vec4(0.0216301, 0.00794618, 0.00376991, 0.78125),
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vec4(0.0144609, 0.00317269, 0.00106399, 1.125),
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vec4(0.0100386, 0.000914679, 0.000275702, 1.53125),
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vec4(0.00317394, 0.000134823, 3.77269e-005, 2.0)
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QUALIFIER vec2 kernel[17] = vec2[](
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vec2(0.197417,0.0),
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vec2(0.000078,-2.0),
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vec2(0.000489,-1.53125),
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vec2(0.002403,-1.125),
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vec2(0.009245,-0.78125),
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vec2(0.027835,-0.5),
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vec2(0.065592,-0.28125),
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vec2(0.12098,-0.125),
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vec2(0.17467,-0.03125),
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vec2(0.17467,0.03125),
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vec2(0.12098,0.125),
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vec2(0.065592,0.28125),
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vec2(0.027835,0.5),
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vec2(0.009245,0.78125),
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vec2(0.002403,1.125),
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vec2(0.000489,1.53125),
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vec2(0.000078,2.0)
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);
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#endif //USE_17_SAMPLES
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@ -82,27 +82,27 @@ QUALIFIER vec4 kernel[17] = vec4[](
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const int kernel_size=11;
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QUALIFIER vec4 kernel[11] = vec4[](
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vec4(0.560479, 0.669086, 0.784728, 0.0),
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vec4(0.00471691, 0.000184771, 5.07566e-005, -2.0),
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vec4(0.0192831, 0.00282018, 0.00084214, -1.28),
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vec4(0.03639, 0.0130999, 0.00643685, -0.72),
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vec4(0.0821904, 0.0358608, 0.0209261, -0.32),
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vec4(0.0771802, 0.113491, 0.0793803, -0.08),
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vec4(0.0771802, 0.113491, 0.0793803, 0.08),
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vec4(0.0821904, 0.0358608, 0.0209261, 0.32),
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vec4(0.03639, 0.0130999, 0.00643685, 0.72),
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vec4(0.0192831, 0.00282018, 0.00084214, 1.28),
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vec4(0.00471691, 0.000184771, 5.07565e-005, 2.0)
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QUALIFIER vec2 kernel[kernel_size] = vec2[](
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vec2(0.198596,0.0),
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vec2(0.0093,-2.0),
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vec2(0.028002,-1.28),
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vec2(0.065984,-0.72),
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vec2(0.121703,-0.32),
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vec2(0.175713,-0.08),
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vec2(0.175713,0.08),
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vec2(0.121703,0.32),
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vec2(0.065984,0.72),
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vec2(0.028002,1.28),
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vec2(0.0093,2.0)
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);
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#endif //USE_11_SAMPLES
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uniform float max_radius;
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uniform float fovy;
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uniform float camera_z_far;
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uniform float camera_z_near;
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uniform float unit_size;
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uniform vec2 dir;
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in vec2 uv_interp;
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@ -120,19 +120,17 @@ void main() {
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// Fetch color of current pixel:
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vec4 base_color = texture(source_diffuse, uv_interp);
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if (strength>0.0) {
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// Fetch linear depth of current pixel:
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float depth = texture(source_depth, uv_interp).r * 2.0 - 1.0;
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depth = 2.0 * camera_z_near * camera_z_far / (camera_z_far + camera_z_near - depth * (camera_z_far - camera_z_near));
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depth=-depth;
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// Calculate the radius scale (1.0 for a unit plane sitting on the
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// projection window):
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float distance = 1.0 / tan(0.5 * fovy);
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float scale = distance / -depth; //remember depth is negative by default in OpenGL
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float scale = unit_size / depth; //remember depth is negative by default in OpenGL
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// Calculate the final step to fetch the surrounding pixels:
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vec2 step = max_radius * scale * dir;
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@ -141,19 +139,21 @@ void main() {
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// Accumulate the center sample:
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vec3 color_accum = base_color.rgb;
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color_accum *= kernel[0].rgb;
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color_accum *= kernel[0].x;
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#ifdef ENABLE_STRENGTH_WEIGHTING
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float color_weight = kernel[0].x;
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#endif
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// Accumulate the other samples:
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for (int i = 1; i < kernel_size; i++) {
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// Fetch color and depth for current sample:
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vec2 offset = uv_interp + kernel[i].a * step;
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vec2 offset = uv_interp + kernel[i].y * step;
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vec3 color = texture(source_diffuse, offset).rgb;
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#ifdef ENABLE_FOLLOW_SURFACE
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// If the difference in depth is huge, we lerp color back to "colorM":
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float depth_cmp = texture(source_depth, offset).r *2.0 - 1.0;
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depth_cmp = 2.0 * camera_z_near * camera_z_far / (camera_z_far + camera_z_near - depth_cmp * (camera_z_far - camera_z_near));
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depth_cmp=-depth_cmp;
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float s = clamp(300.0f * distance *
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max_radius * abs(depth - depth_cmp),0.0,1.0);
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@ -161,9 +161,20 @@ void main() {
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#endif
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// Accumulate:
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color_accum += kernel[i].rgb * color;
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color*=kernel[i].x;
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#ifdef ENABLE_STRENGTH_WEIGHTING
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float color_s = texture(source_sss, offset).r;
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color_weight+=color_s * kernel[i].x;
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color*=color_s;
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#endif
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color_accum += color;
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}
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#ifdef ENABLE_STRENGTH_WEIGHTING
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color_accum/=color_weight;
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#endif
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frag_color = vec4(color_accum,base_color.a); //keep alpha (used for SSAO)
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} else {
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frag_color = base_color;
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