diff options
author | Brecht Van Lommel <brecht@blender.org> | 2022-08-09 20:19:54 +0300 |
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committer | Brecht Van Lommel <brecht@blender.org> | 2022-08-09 20:19:54 +0300 |
commit | 752fb5dd081233f4f6ec389503cc4e7bec15e772 (patch) | |
tree | f467cff8b7436acea1bd09b27b2869da56ab0f16 /intern/cycles/kernel/integrator | |
parent | 1e8e70a90cdafa94746dd8aaee886a5747ff9d9e (diff) | |
parent | 79f1cc601cdbcf142e1bf4c1966f64dcf93b030f (diff) |
Merge branch 'blender-v3.3-release'
Diffstat (limited to 'intern/cycles/kernel/integrator')
-rw-r--r-- | intern/cycles/kernel/integrator/shade_surface.h | 58 |
1 files changed, 56 insertions, 2 deletions
diff --git a/intern/cycles/kernel/integrator/shade_surface.h b/intern/cycles/kernel/integrator/shade_surface.h index 986f7f622fb..86dbfdd3edc 100644 --- a/intern/cycles/kernel/integrator/shade_surface.h +++ b/intern/cycles/kernel/integrator/shade_surface.h @@ -31,6 +31,52 @@ ccl_device_forceinline void integrate_surface_shader_setup(KernelGlobals kg, shader_setup_from_ray(kg, sd, &ray, &isect); } +ccl_device_forceinline float3 integrate_surface_ray_offset(KernelGlobals kg, + const ccl_private ShaderData *sd, + const float3 ray_P, + const float3 ray_D) +{ + /* No ray offset needed for other primitive types. */ + if (!(sd->type & PRIMITIVE_TRIANGLE)) { + return ray_P; + } + + /* Self intersection tests already account for the case where a ray hits the + * same primitive. However precision issues can still cause neighboring + * triangles to be hit. Here we test if the ray-triangle intersection with + * the same primitive would miss, implying that a neighbouring triangle would + * be hit instead. + * + * This relies on triangle intersection to be watertight, and the object inverse + * object transform to match the one used by ray intersection exactly. + * + * Potential improvements: + * - It appears this happens when either barycentric coordinates are small, + * or dot(sd->Ng, ray_D) is small. Detect such cases and skip test? + * - Instead of ray offset, can we tweak P to lie within the triangle? + */ + const uint tri_vindex = kernel_data_fetch(tri_vindex, sd->prim).w; + const packed_float3 tri_a = kernel_data_fetch(tri_verts, tri_vindex + 0), + tri_b = kernel_data_fetch(tri_verts, tri_vindex + 1), + tri_c = kernel_data_fetch(tri_verts, tri_vindex + 2); + + float3 local_ray_P = ray_P; + float3 local_ray_D = ray_D; + + if (!(sd->object_flag & SD_OBJECT_TRANSFORM_APPLIED)) { + const Transform itfm = object_get_inverse_transform(kg, sd); + local_ray_P = transform_point(&itfm, local_ray_P); + local_ray_D = transform_direction(&itfm, local_ray_D); + } + + if (ray_triangle_intersect_self(local_ray_P, local_ray_D, tri_a, tri_b, tri_c)) { + return ray_P; + } + else { + return ray_offset(ray_P, sd->Ng); + } +} + #ifdef __HOLDOUT__ ccl_device_forceinline bool integrate_surface_holdout(KernelGlobals kg, ConstIntegratorState state, @@ -200,6 +246,10 @@ ccl_device_forceinline void integrate_surface_direct_light(KernelGlobals kg, # endif } + if (ray.self.object != OBJECT_NONE) { + ray.P = integrate_surface_ray_offset(kg, sd, ray.P, ray.D); + } + /* Write shadow ray and associated state to global memory. */ integrator_state_write_shadow_ray(kg, shadow_state, &ray); // Save memory by storing the light and object indices in the shadow_isect @@ -328,8 +378,9 @@ ccl_device_forceinline int integrate_surface_bsdf_bssrdf_bounce( } else { /* Setup ray with changed origin and direction. */ - INTEGRATOR_STATE_WRITE(state, ray, P) = sd->P; - INTEGRATOR_STATE_WRITE(state, ray, D) = normalize(bsdf_omega_in); + const float3 D = normalize(bsdf_omega_in); + INTEGRATOR_STATE_WRITE(state, ray, P) = integrate_surface_ray_offset(kg, sd, sd->P, D); + INTEGRATOR_STATE_WRITE(state, ray, D) = D; INTEGRATOR_STATE_WRITE(state, ray, tmin) = 0.0f; INTEGRATOR_STATE_WRITE(state, ray, tmax) = FLT_MAX; #ifdef __RAY_DIFFERENTIALS__ @@ -423,6 +474,9 @@ ccl_device_forceinline void integrate_surface_ao(KernelGlobals kg, Ray ray ccl_optional_struct_init; ray.P = shadow_ray_offset(kg, sd, ao_D, &skip_self); ray.D = ao_D; + if (skip_self) { + ray.P = integrate_surface_ray_offset(kg, sd, ray.P, ray.D); + } ray.tmin = 0.0f; ray.tmax = kernel_data.integrator.ao_bounces_distance; ray.time = sd->time; |