diff options
Diffstat (limited to 'intern/cycles/kernel/integrator/shade_surface.h')
-rw-r--r-- | intern/cycles/kernel/integrator/shade_surface.h | 108 |
1 files changed, 48 insertions, 60 deletions
diff --git a/intern/cycles/kernel/integrator/shade_surface.h b/intern/cycles/kernel/integrator/shade_surface.h index 59c59e9224a..c19f56a9b70 100644 --- a/intern/cycles/kernel/integrator/shade_surface.h +++ b/intern/cycles/kernel/integrator/shade_surface.h @@ -3,14 +3,15 @@ #pragma once -#include "kernel/film/accumulate.h" -#include "kernel/film/passes.h" +#include "kernel/film/data_passes.h" +#include "kernel/film/denoising_passes.h" +#include "kernel/film/light_passes.h" #include "kernel/integrator/mnee.h" #include "kernel/integrator/path_state.h" -#include "kernel/integrator/shader_eval.h" #include "kernel/integrator/subsurface.h" +#include "kernel/integrator/surface_shader.h" #include "kernel/integrator/volume_stack.h" #include "kernel/light/light.h" @@ -77,7 +78,6 @@ ccl_device_forceinline float3 integrate_surface_ray_offset(KernelGlobals kg, } } -#ifdef __HOLDOUT__ ccl_device_forceinline bool integrate_surface_holdout(KernelGlobals kg, ConstIntegratorState state, ccl_private ShaderData *sd, @@ -88,20 +88,18 @@ ccl_device_forceinline bool integrate_surface_holdout(KernelGlobals kg, if (((sd->flag & SD_HOLDOUT) || (sd->object_flag & SD_OBJECT_HOLDOUT_MASK)) && (path_flag & PATH_RAY_TRANSPARENT_BACKGROUND)) { - const float3 holdout_weight = shader_holdout_apply(kg, sd); - const float3 throughput = INTEGRATOR_STATE(state, path, throughput); + const Spectrum holdout_weight = surface_shader_apply_holdout(kg, sd); + const Spectrum throughput = INTEGRATOR_STATE(state, path, throughput); const float transparent = average(holdout_weight * throughput); - kernel_accum_holdout(kg, state, path_flag, transparent, render_buffer); - if (isequal(holdout_weight, one_float3())) { + film_write_holdout(kg, state, path_flag, transparent, render_buffer); + if (isequal(holdout_weight, one_spectrum())) { return false; } } return true; } -#endif /* __HOLDOUT__ */ -#ifdef __EMISSION__ ccl_device_forceinline void integrate_surface_emission(KernelGlobals kg, ConstIntegratorState state, ccl_private const ShaderData *sd, @@ -111,14 +109,15 @@ ccl_device_forceinline void integrate_surface_emission(KernelGlobals kg, const uint32_t path_flag = INTEGRATOR_STATE(state, path, flag); /* Evaluate emissive closure. */ - float3 L = shader_emissive_eval(sd); + Spectrum L = surface_shader_emission(sd); + float mis_weight = 1.0f; -# ifdef __HAIR__ +#ifdef __HAIR__ if (!(path_flag & PATH_RAY_MIS_SKIP) && (sd->flag & SD_USE_MIS) && (sd->type & PRIMITIVE_TRIANGLE)) -# else +#else if (!(path_flag & PATH_RAY_MIS_SKIP) && (sd->flag & SD_USE_MIS)) -# endif +#endif { const float bsdf_pdf = INTEGRATOR_STATE(state, path, mis_ray_pdf); const float t = sd->ray_length; @@ -126,17 +125,13 @@ ccl_device_forceinline void integrate_surface_emission(KernelGlobals kg, /* Multiple importance sampling, get triangle light pdf, * and compute weight with respect to BSDF pdf. */ float pdf = triangle_light_pdf(kg, sd, t); - float mis_weight = light_sample_mis_weight_forward(kg, bsdf_pdf, pdf); - L *= mis_weight; + mis_weight = light_sample_mis_weight_forward(kg, bsdf_pdf, pdf); } - const float3 throughput = INTEGRATOR_STATE(state, path, throughput); - kernel_accum_emission( - kg, state, throughput * L, render_buffer, object_lightgroup(kg, sd->object)); + film_write_surface_emission( + kg, state, L, mis_weight, render_buffer, object_lightgroup(kg, sd->object)); } -#endif /* __EMISSION__ */ -#ifdef __EMISSION__ /* Path tracing: sample point on light and evaluate light shader, then * queue shadow ray to be traced. */ template<uint node_feature_mask> @@ -155,11 +150,10 @@ ccl_device_forceinline void integrate_surface_direct_light(KernelGlobals kg, { const uint32_t path_flag = INTEGRATOR_STATE(state, path, flag); const uint bounce = INTEGRATOR_STATE(state, path, bounce); - float light_u, light_v; - path_state_rng_2D(kg, rng_state, PRNG_LIGHT_U, &light_u, &light_v); + const float2 rand_light = path_state_rng_2D(kg, rng_state, PRNG_LIGHT); if (!light_distribution_sample_from_position( - kg, light_u, light_v, sd->time, sd->P, bounce, path_flag, &ls)) { + kg, rand_light.x, rand_light.y, sd->time, sd->P, bounce, path_flag, &ls)) { return; } } @@ -177,9 +171,9 @@ ccl_device_forceinline void integrate_surface_direct_light(KernelGlobals kg, Ray ray ccl_optional_struct_init; BsdfEval bsdf_eval ccl_optional_struct_init; - const bool is_transmission = shader_bsdf_is_transmission(sd, ls.D); + const bool is_transmission = surface_shader_is_transmission(sd, ls.D); -# ifdef __MNEE__ +#ifdef __MNEE__ int mnee_vertex_count = 0; IF_KERNEL_FEATURE(MNEE) { @@ -205,15 +199,16 @@ ccl_device_forceinline void integrate_surface_direct_light(KernelGlobals kg, light_sample_to_surface_shadow_ray(kg, emission_sd, &ls, &ray); } else -# endif /* __MNEE__ */ +#endif /* __MNEE__ */ { - const float3 light_eval = light_sample_shader_eval(kg, state, emission_sd, &ls, sd->time); + const Spectrum light_eval = light_sample_shader_eval(kg, state, emission_sd, &ls, sd->time); if (is_zero(light_eval)) { return; } /* Evaluate BSDF. */ - const float bsdf_pdf = shader_bsdf_eval(kg, sd, ls.D, is_transmission, &bsdf_eval, ls.shader); + const float bsdf_pdf = surface_shader_bsdf_eval( + kg, sd, ls.D, is_transmission, &bsdf_eval, ls.shader); bsdf_eval_mul(&bsdf_eval, light_eval / ls.pdf); if (ls.shader & SHADER_USE_MIS) { @@ -241,9 +236,9 @@ ccl_device_forceinline void integrate_surface_direct_light(KernelGlobals kg, integrator_state_copy_volume_stack_to_shadow(kg, shadow_state, state); if (is_transmission) { -# ifdef __VOLUME__ +#ifdef __VOLUME__ shadow_volume_stack_enter_exit(kg, shadow_state, sd); -# endif +#endif } if (ray.self.object != OBJECT_NONE) { @@ -261,11 +256,12 @@ ccl_device_forceinline void integrate_surface_direct_light(KernelGlobals kg, /* Copy state from main path to shadow path. */ uint32_t shadow_flag = INTEGRATOR_STATE(state, path, flag); shadow_flag |= (is_light) ? PATH_RAY_SHADOW_FOR_LIGHT : 0; - const float3 throughput = INTEGRATOR_STATE(state, path, throughput) * bsdf_eval_sum(&bsdf_eval); + const Spectrum throughput = INTEGRATOR_STATE(state, path, throughput) * + bsdf_eval_sum(&bsdf_eval); if (kernel_data.kernel_features & KERNEL_FEATURE_LIGHT_PASSES) { - packed_float3 pass_diffuse_weight; - packed_float3 pass_glossy_weight; + PackedSpectrum pass_diffuse_weight; + PackedSpectrum pass_glossy_weight; if (shadow_flag & PATH_RAY_ANY_PASS) { /* Indirect bounce, use weights from earlier surface or volume bounce. */ @@ -275,8 +271,8 @@ ccl_device_forceinline void integrate_surface_direct_light(KernelGlobals kg, else { /* Direct light, use BSDFs at this bounce. */ shadow_flag |= PATH_RAY_SURFACE_PASS; - pass_diffuse_weight = packed_float3(bsdf_eval_pass_diffuse_weight(&bsdf_eval)); - pass_glossy_weight = packed_float3(bsdf_eval_pass_glossy_weight(&bsdf_eval)); + pass_diffuse_weight = PackedSpectrum(bsdf_eval_pass_diffuse_weight(&bsdf_eval)); + pass_glossy_weight = PackedSpectrum(bsdf_eval_pass_glossy_weight(&bsdf_eval)); } INTEGRATOR_STATE_WRITE(shadow_state, shadow_path, pass_diffuse_weight) = pass_diffuse_weight; @@ -298,7 +294,7 @@ ccl_device_forceinline void integrate_surface_direct_light(KernelGlobals kg, INTEGRATOR_STATE_WRITE(shadow_state, shadow_path, glossy_bounce) = INTEGRATOR_STATE( state, path, glossy_bounce); -# ifdef __MNEE__ +#ifdef __MNEE__ if (mnee_vertex_count > 0) { INTEGRATOR_STATE_WRITE(shadow_state, shadow_path, transmission_bounce) = INTEGRATOR_STATE(state, path, transmission_bounce) + mnee_vertex_count - 1; @@ -310,7 +306,7 @@ ccl_device_forceinline void integrate_surface_direct_light(KernelGlobals kg, bounce) = INTEGRATOR_STATE(state, path, bounce) + mnee_vertex_count; } else -# endif +#endif { INTEGRATOR_STATE_WRITE(shadow_state, shadow_path, transmission_bounce) = INTEGRATOR_STATE( state, path, transmission_bounce); @@ -332,7 +328,6 @@ ccl_device_forceinline void integrate_surface_direct_light(KernelGlobals kg, ls.group + 1 : kernel_data.background.lightgroup + 1; } -#endif /* Path tracing: bounce off or through surface with new direction. */ ccl_device_forceinline int integrate_surface_bsdf_bssrdf_bounce( @@ -346,9 +341,8 @@ ccl_device_forceinline int integrate_surface_bsdf_bssrdf_bounce( return LABEL_NONE; } - float bsdf_u, bsdf_v; - path_state_rng_2D(kg, rng_state, PRNG_BSDF_U, &bsdf_u, &bsdf_v); - ccl_private const ShaderClosure *sc = shader_bsdf_bssrdf_pick(sd, &bsdf_u); + float2 rand_bsdf = path_state_rng_2D(kg, rng_state, PRNG_SURFACE_BSDF); + ccl_private const ShaderClosure *sc = surface_shader_bsdf_bssrdf_pick(sd, &rand_bsdf); #ifdef __SUBSURFACE__ /* BSSRDF closure, we schedule subsurface intersection kernel. */ @@ -361,11 +355,10 @@ ccl_device_forceinline int integrate_surface_bsdf_bssrdf_bounce( float bsdf_pdf; BsdfEval bsdf_eval ccl_optional_struct_init; float3 bsdf_omega_in ccl_optional_struct_init; - differential3 bsdf_domega_in ccl_optional_struct_init; int label; - label = shader_bsdf_sample_closure( - kg, sd, sc, bsdf_u, bsdf_v, &bsdf_eval, &bsdf_omega_in, &bsdf_domega_in, &bsdf_pdf); + label = surface_shader_bsdf_sample_closure( + kg, sd, sc, rand_bsdf, &bsdf_eval, &bsdf_omega_in, &bsdf_pdf); if (bsdf_pdf == 0.0f || bsdf_eval_is_zero(&bsdf_eval)) { return LABEL_NONE; @@ -384,12 +377,11 @@ ccl_device_forceinline int integrate_surface_bsdf_bssrdf_bounce( INTEGRATOR_STATE_WRITE(state, ray, tmax) = FLT_MAX; #ifdef __RAY_DIFFERENTIALS__ INTEGRATOR_STATE_WRITE(state, ray, dP) = differential_make_compact(sd->dP); - INTEGRATOR_STATE_WRITE(state, ray, dD) = differential_make_compact(bsdf_domega_in); #endif } /* Update throughput. */ - float3 throughput = INTEGRATOR_STATE(state, path, throughput); + Spectrum throughput = INTEGRATOR_STATE(state, path, throughput); throughput *= bsdf_eval_sum(&bsdf_eval) / bsdf_pdf; INTEGRATOR_STATE_WRITE(state, path, throughput) = throughput; @@ -457,16 +449,15 @@ ccl_device_forceinline void integrate_surface_ao(KernelGlobals kg, return; } - float bsdf_u, bsdf_v; - path_state_rng_2D(kg, rng_state, PRNG_BSDF_U, &bsdf_u, &bsdf_v); + const float2 rand_bsdf = path_state_rng_2D(kg, rng_state, PRNG_SURFACE_BSDF); float3 ao_N; - const float3 ao_weight = shader_bsdf_ao( + const Spectrum ao_weight = surface_shader_ao( kg, sd, kernel_data.integrator.ao_additive_factor, &ao_N); float3 ao_D; float ao_pdf; - sample_cos_hemisphere(ao_N, bsdf_u, bsdf_v, &ao_D, &ao_pdf); + sample_cos_hemisphere(ao_N, rand_bsdf.x, rand_bsdf.y, &ao_D, &ao_pdf); bool skip_self = true; @@ -504,7 +495,8 @@ ccl_device_forceinline void integrate_surface_ao(KernelGlobals kg, const uint16_t bounce = INTEGRATOR_STATE(state, path, bounce); const uint16_t transparent_bounce = INTEGRATOR_STATE(state, path, transparent_bounce); uint32_t shadow_flag = INTEGRATOR_STATE(state, path, flag) | PATH_RAY_SHADOW_FOR_AO; - const float3 throughput = INTEGRATOR_STATE(state, path, throughput) * shader_bsdf_alpha(kg, sd); + const Spectrum throughput = INTEGRATOR_STATE(state, path, throughput) * + surface_shader_alpha(kg, sd); INTEGRATOR_STATE_WRITE(shadow_state, shadow_path, render_pixel_index) = INTEGRATOR_STATE( state, path, render_pixel_index); @@ -553,7 +545,7 @@ ccl_device bool integrate_surface(KernelGlobals kg, { /* Evaluate shader. */ PROFILING_EVENT(PROFILING_SHADE_SURFACE_EVAL); - shader_eval_surface<node_feature_mask>(kg, state, &sd, render_buffer, path_flag); + surface_shader_eval<node_feature_mask>(kg, state, &sd, render_buffer, path_flag); /* Initialize additional RNG for BSDFs. */ if (sd.flag & SD_BSDF_NEEDS_LCG) { @@ -575,21 +567,17 @@ ccl_device bool integrate_surface(KernelGlobals kg, #endif { /* Filter closures. */ - shader_prepare_surface_closures(kg, state, &sd, path_flag); + surface_shader_prepare_closures(kg, state, &sd, path_flag); -#ifdef __HOLDOUT__ /* Evaluate holdout. */ if (!integrate_surface_holdout(kg, state, &sd, render_buffer)) { return false; } -#endif -#ifdef __EMISSION__ /* Write emission. */ if (sd.flag & SD_EMISSION) { integrate_surface_emission(kg, state, &sd, render_buffer); } -#endif /* Perform path termination. Most paths have already been terminated in * the intersect_closest kernel, this is just for emission and for dividing @@ -603,11 +591,11 @@ ccl_device bool integrate_surface(KernelGlobals kg, /* Write render passes. */ #ifdef __PASSES__ PROFILING_EVENT(PROFILING_SHADE_SURFACE_PASSES); - kernel_write_data_passes(kg, state, &sd, render_buffer); + film_write_data_passes(kg, state, &sd, render_buffer); #endif #ifdef __DENOISING_FEATURES__ - kernel_write_denoising_features_surface(kg, state, &sd, render_buffer); + film_write_denoising_features_surface(kg, state, &sd, render_buffer); #endif } |