diff options
Diffstat (limited to 'source/blender/draw/engines/eevee/shaders/bsdf_common_lib.glsl')
| -rw-r--r-- | source/blender/draw/engines/eevee/shaders/bsdf_common_lib.glsl | 54 |
1 files changed, 54 insertions, 0 deletions
diff --git a/source/blender/draw/engines/eevee/shaders/bsdf_common_lib.glsl b/source/blender/draw/engines/eevee/shaders/bsdf_common_lib.glsl index bc2895ef3df..5f0fde134d1 100644 --- a/source/blender/draw/engines/eevee/shaders/bsdf_common_lib.glsl +++ b/source/blender/draw/engines/eevee/shaders/bsdf_common_lib.glsl @@ -135,6 +135,60 @@ void accumulate_light(vec3 light, float fac, inout vec4 accum) accum += vec4(light, 1.0) * min(fac, (1.0 - accum.a)); } +/* Same thing as Cycles without the comments to make it shorter. */ +vec3 ensure_valid_reflection(vec3 Ng, vec3 I, vec3 N) +{ + vec3 R = -reflect(I, N); + + /* Reflection rays may always be at least as shallow as the incoming ray. */ + float threshold = min(0.9 * dot(Ng, I), 0.025); + if (dot(Ng, R) >= threshold) { + return N; + } + + float NdotNg = dot(N, Ng); + vec3 X = normalize(N - NdotNg * Ng); + + float Ix = dot(I, X), Iz = dot(I, Ng); + float Ix2 = sqr(Ix), Iz2 = sqr(Iz); + float a = Ix2 + Iz2; + + float b = sqrt(Ix2 * (a - sqr(threshold))); + float c = Iz * threshold + a; + + float fac = 0.5 / a; + float N1_z2 = fac * (b + c), N2_z2 = fac * (-b + c); + bool valid1 = (N1_z2 > 1e-5) && (N1_z2 <= (1.0 + 1e-5)); + bool valid2 = (N2_z2 > 1e-5) && (N2_z2 <= (1.0 + 1e-5)); + + vec2 N_new; + if (valid1 && valid2) { + /* If both are possible, do the expensive reflection-based check. */ + vec2 N1 = vec2(sqrt(1.0 - N1_z2), sqrt(N1_z2)); + vec2 N2 = vec2(sqrt(1.0 - N2_z2), sqrt(N2_z2)); + + float R1 = 2.0 * (N1.x * Ix + N1.y * Iz) * N1.y - Iz; + float R2 = 2.0 * (N2.x * Ix + N2.y * Iz) * N2.y - Iz; + + valid1 = (R1 >= 1e-5); + valid2 = (R2 >= 1e-5); + if (valid1 && valid2) { + N_new = (R1 < R2) ? N1 : N2; + } + else { + N_new = (R1 > R2) ? N1 : N2; + } + } + else if (valid1 || valid2) { + float Nz2 = valid1 ? N1_z2 : N2_z2; + N_new = vec2(sqrt(1.0 - Nz2), sqrt(Nz2)); + } + else { + return Ng; + } + return N_new.x * X + N_new.y * Ng; +} + /* ----------- Cone angle Approximation --------- */ /* Return a fitted cone angle given the input roughness */ |