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authorRider Linden <rider@lindenlab.com>2018-09-11 18:41:52 +0000
committerRider Linden <rider@lindenlab.com>2018-09-11 18:41:52 +0000
commitfe28c3e886aa8a9d5c5b9bc582b532f1235bd76c (patch)
tree9eb0310081f3c8ea2b302fcf0fe2fc76a3683e5d /indra/newview/app_settings/shaders/class3/deferred/sunLightSSAOF.glsl
parent43c8f5959f8afaf2f67fbbf49e78965802859b55 (diff)
parent1207c2fd006842a86e4ecf45bf653dc54081db1b (diff)
Merged in graham_linden/viewer-eep-graham (pull request #77)
SL-1936 and SL-1912 WIP
Diffstat (limited to 'indra/newview/app_settings/shaders/class3/deferred/sunLightSSAOF.glsl')
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+/**
+ * @file sunLightSSAOF.glsl
+ * $LicenseInfo:firstyear=2007&license=viewerlgpl$
+ * Second Life Viewer Source Code
+ * Copyright (C) 2007, Linden Research, Inc.
+ *
+ * This library is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU Lesser General Public
+ * License as published by the Free Software Foundation;
+ * version 2.1 of the License only.
+ *
+ * This library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ * Lesser General Public License for more details.
+ *
+ * You should have received a copy of the GNU Lesser General Public
+ * License along with this library; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
+ *
+ * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
+ * $/LicenseInfo$
+ */
+
+#extension GL_ARB_texture_rectangle : enable
+
+/*[EXTRA_CODE_HERE]*/
+
+#ifdef DEFINE_GL_FRAGCOLOR
+out vec4 frag_color;
+#else
+#define frag_color gl_FragColor
+#endif
+
+//class 2 -- shadows and SSAO
+
+uniform sampler2DRect depthMap;
+uniform sampler2DRect normalMap;
+uniform sampler2DShadow shadowMap0;
+uniform sampler2DShadow shadowMap1;
+uniform sampler2DShadow shadowMap2;
+uniform sampler2DShadow shadowMap3;
+uniform sampler2DShadow shadowMap4;
+uniform sampler2DShadow shadowMap5;
+uniform sampler2D noiseMap;
+
+
+// Inputs
+uniform mat4 shadow_matrix[6];
+uniform vec4 shadow_clip;
+uniform float ssao_radius;
+uniform float ssao_max_radius;
+uniform float ssao_factor;
+uniform float ssao_factor_inv;
+
+VARYING vec2 vary_fragcoord;
+
+uniform mat4 inv_proj;
+uniform vec2 screen_res;
+uniform vec2 proj_shadow_res;
+uniform vec3 sun_dir;
+
+uniform vec2 shadow_res;
+
+uniform float shadow_bias;
+uniform float shadow_offset;
+
+uniform float spot_shadow_bias;
+uniform float spot_shadow_offset;
+
+vec3 decode_normal (vec2 enc);
+
+vec4 getPosition(vec2 pos_screen)
+{
+ float depth = texture2DRect(depthMap, pos_screen.xy).r;
+ vec2 sc = pos_screen.xy*2.0;
+ sc /= screen_res;
+ sc -= vec2(1.0,1.0);
+ vec4 ndc = vec4(sc.x, sc.y, 2.0*depth-1.0, 1.0);
+ vec4 pos = inv_proj * ndc;
+ pos /= pos.w;
+ pos.w = 1.0;
+ return pos;
+}
+
+vec2 getKern(int i)
+{
+ vec2 kern[8];
+ // exponentially (^2) distant occlusion samples spread around origin
+ kern[0] = vec2(-1.0, 0.0) * 0.125*0.125;
+ kern[1] = vec2(1.0, 0.0) * 0.250*0.250;
+ kern[2] = vec2(0.0, 1.0) * 0.375*0.375;
+ kern[3] = vec2(0.0, -1.0) * 0.500*0.500;
+ kern[4] = vec2(0.7071, 0.7071) * 0.625*0.625;
+ kern[5] = vec2(-0.7071, -0.7071) * 0.750*0.750;
+ kern[6] = vec2(-0.7071, 0.7071) * 0.875*0.875;
+ kern[7] = vec2(0.7071, -0.7071) * 1.000*1.000;
+
+ return kern[i];
+}
+
+//calculate decreases in ambient lighting when crowded out (SSAO)
+float calcAmbientOcclusion(vec4 pos, vec3 norm)
+{
+ float ret = 1.0;
+
+ vec2 pos_screen = vary_fragcoord.xy;
+ vec3 pos_world = pos.xyz;
+ vec2 noise_reflect = texture2D(noiseMap, vary_fragcoord.xy/128.0).xy;
+
+ float angle_hidden = 0.0;
+ float points = 0;
+
+ float scale = min(ssao_radius / -pos_world.z, ssao_max_radius);
+
+ // it was found that keeping # of samples a constant was the fastest, probably due to compiler optimizations (unrolling?)
+ for (int i = 0; i < 8; i++)
+ {
+ vec2 samppos_screen = pos_screen + scale * reflect(getKern(i), noise_reflect);
+ vec3 samppos_world = getPosition(samppos_screen).xyz;
+
+ vec3 diff = pos_world - samppos_world;
+ float dist2 = dot(diff, diff);
+
+ // assume each sample corresponds to an occluding sphere with constant radius, constant x-sectional area
+ // --> solid angle shrinking by the square of distance
+ //radius is somewhat arbitrary, can approx with just some constant k * 1 / dist^2
+ //(k should vary inversely with # of samples, but this is taken care of later)
+
+ float funky_val = (dot((samppos_world - 0.05*norm - pos_world), norm) > 0.0) ? 1.0 : 0.0;
+ angle_hidden = angle_hidden + funky_val * min(1.0/dist2, ssao_factor_inv);
+
+ // 'blocked' samples (significantly closer to camera relative to pos_world) are "no data", not "no occlusion"
+ float diffz_val = (diff.z > -1.0) ? 1.0 : 0.0;
+ points = points + diffz_val;
+ }
+
+ angle_hidden = min(ssao_factor*angle_hidden/points, 1.0);
+
+ float points_val = (points > 0.0) ? 1.0 : 0.0;
+ ret = (1.0 - (points_val * angle_hidden));
+
+ ret = max(ret, 0.0);
+ return min(ret, 1.0);
+}
+
+float pcfShadow(sampler2DShadow shadowMap, vec4 stc, float scl, vec2 pos_screen)
+{
+ stc.xyz /= stc.w;
+ stc.z += shadow_bias;
+
+ stc.x = floor(stc.x*shadow_res.x + fract(pos_screen.y*0.666666666))/shadow_res.x;
+ float cs = shadow2D(shadowMap, stc.xyz).x;
+
+ float shadow = cs;
+
+ shadow += shadow2D(shadowMap, stc.xyz+vec3(2.0/shadow_res.x, 1.5/shadow_res.y, 0.0)).x;
+ shadow += shadow2D(shadowMap, stc.xyz+vec3(1.0/shadow_res.x, -1.5/shadow_res.y, 0.0)).x;
+ shadow += shadow2D(shadowMap, stc.xyz+vec3(-1.0/shadow_res.x, 1.5/shadow_res.y, 0.0)).x;
+ shadow += shadow2D(shadowMap, stc.xyz+vec3(-2.0/shadow_res.x, -1.5/shadow_res.y, 0.0)).x;
+
+ return shadow*0.2;
+}
+
+float pcfSpotShadow(sampler2DShadow shadowMap, vec4 stc, float scl, vec2 pos_screen)
+{
+ stc.xyz /= stc.w;
+ stc.z += spot_shadow_bias*scl;
+ stc.x = floor(proj_shadow_res.x * stc.x + fract(pos_screen.y*0.666666666)) / proj_shadow_res.x; // snap
+
+ float cs = shadow2D(shadowMap, stc.xyz).x;
+ float shadow = cs;
+
+ vec2 off = 1.0/proj_shadow_res;
+ off.y *= 1.5;
+
+ shadow += shadow2D(shadowMap, stc.xyz+vec3(off.x*2.0, off.y, 0.0)).x;
+ shadow += shadow2D(shadowMap, stc.xyz+vec3(off.x, -off.y, 0.0)).x;
+ shadow += shadow2D(shadowMap, stc.xyz+vec3(-off.x, off.y, 0.0)).x;
+ shadow += shadow2D(shadowMap, stc.xyz+vec3(-off.x*2.0, -off.y, 0.0)).x;
+
+ return shadow*0.2;
+}
+
+void main()
+{
+ vec2 pos_screen = vary_fragcoord.xy;
+
+ //try doing an unproject here
+
+ vec4 pos = getPosition(pos_screen);
+
+ vec3 norm = texture2DRect(normalMap, pos_screen).xyz;
+ norm = decode_normal(norm.xy); // unpack norm
+
+ /*if (pos.z == 0.0) // do nothing for sky *FIX: REMOVE THIS IF/WHEN THE POSITION MAP IS BEING USED AS A STENCIL
+ {
+ frag_color = vec4(0.0); // doesn't matter
+ return;
+ }*/
+
+ float shadow = 0.0;
+ float dp_directional_light = max(0.0, dot(norm, sun_dir.xyz));
+
+ vec3 shadow_pos = pos.xyz;
+ vec3 offset = sun_dir.xyz * (1.0-dp_directional_light);
+
+ vec4 spos = vec4(shadow_pos+offset*shadow_offset, 1.0);
+
+ if (spos.z > -shadow_clip.w)
+ {
+ if (dp_directional_light == 0.0)
+ {
+ // if we know this point is facing away from the sun then we know it's in shadow without having to do a squirrelly shadow-map lookup
+ shadow = 0.0;
+ }
+ else
+ {
+ vec4 lpos;
+
+ vec4 near_split = shadow_clip*-0.75;
+ vec4 far_split = shadow_clip*-1.25;
+ vec4 transition_domain = near_split-far_split;
+ float weight = 0.0;
+
+ if (spos.z < near_split.z)
+ {
+ lpos = shadow_matrix[3]*spos;
+
+ float w = 1.0;
+ w -= max(spos.z-far_split.z, 0.0)/transition_domain.z;
+ shadow += pcfShadow(shadowMap3, lpos, 0.25, pos_screen)*w;
+ weight += w;
+ shadow += max((pos.z+shadow_clip.z)/(shadow_clip.z-shadow_clip.w)*2.0-1.0, 0.0);
+ }
+
+ if (spos.z < near_split.y && spos.z > far_split.z)
+ {
+ lpos = shadow_matrix[2]*spos;
+
+ float w = 1.0;
+ w -= max(spos.z-far_split.y, 0.0)/transition_domain.y;
+ w -= max(near_split.z-spos.z, 0.0)/transition_domain.z;
+ shadow += pcfShadow(shadowMap2, lpos, 0.5, pos_screen)*w;
+ weight += w;
+ }
+
+ if (spos.z < near_split.x && spos.z > far_split.y)
+ {
+ lpos = shadow_matrix[1]*spos;
+
+ float w = 1.0;
+ w -= max(spos.z-far_split.x, 0.0)/transition_domain.x;
+ w -= max(near_split.y-spos.z, 0.0)/transition_domain.y;
+ shadow += pcfShadow(shadowMap1, lpos, 0.75, pos_screen)*w;
+ weight += w;
+ }
+
+ if (spos.z > far_split.x)
+ {
+ lpos = shadow_matrix[0]*spos;
+
+ float w = 1.0;
+ w -= max(near_split.x-spos.z, 0.0)/transition_domain.x;
+
+ shadow += pcfShadow(shadowMap0, lpos, 1.0, pos_screen)*w;
+ weight += w;
+ }
+
+
+ shadow /= weight;
+
+ // take the most-shadowed value out of these two:
+ // * the blurred sun shadow in the light (shadow) map
+ // * an unblurred dot product between the sun and this norm
+ // the goal is to err on the side of most-shadow to fill-in shadow holes and reduce artifacting
+ shadow = min(shadow, dp_directional_light);
+
+ //lpos.xy /= lpos.w*32.0;
+ //if (fract(lpos.x) < 0.1 || fract(lpos.y) < 0.1)
+ //{
+ // shadow = 0.0;
+ //}
+
+ }
+ }
+ else
+ {
+ // more distant than the shadow map covers
+ shadow = 1.0;
+ }
+
+ frag_color[0] = shadow;
+ frag_color[1] = calcAmbientOcclusion(pos, norm);
+
+ spos = vec4(shadow_pos+norm*spot_shadow_offset, 1.0);
+
+ //spotlight shadow 1
+ vec4 lpos = shadow_matrix[4]*spos;
+ frag_color[2] = pcfSpotShadow(shadowMap4, lpos, 0.8, pos_screen);
+
+ //spotlight shadow 2
+ lpos = shadow_matrix[5]*spos;
+ frag_color[3] = pcfSpotShadow(shadowMap5, lpos, 0.8, pos_screen);
+
+ //frag_color.rgb = pos.xyz;
+ //frag_color.b = shadow;
+}