forked from bartvdbraak/blender
0579eaae1f
The idea is to make include statements more explicit and obvious where the file is coming from, additionally reducing chance of wrong header being picked up. For example, it was not obvious whether bvh.h was refferring to builder or traversal, whenter node.h is a generic graph node or a shader node and cases like that. Surely this might look obvious for the active developers, but after some time of not touching the code it becomes less obvious where file is coming from. This was briefly mentioned in T50824 and seems @brecht is fine with such explicitness, but need to agree with all active developers before committing this. Please note that this patch is lacking changes related on GPU/OpenCL support. This will be solved if/when we all agree this is a good idea to move forward. Reviewers: brecht, lukasstockner97, maiself, nirved, dingto, juicyfruit, swerner Reviewed By: lukasstockner97, maiself, nirved, dingto Subscribers: brecht Differential Revision: https://developer.blender.org/D2586
268 lines
8.5 KiB
C
268 lines
8.5 KiB
C
/*
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* Adapted from code Copyright 2009-2010 NVIDIA Corporation,
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* and code copyright 2009-2012 Intel Corporation
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*
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* Modifications Copyright 2011-2013, Blender Foundation.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifdef __QBVH__
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# include "kernel/bvh/qbvh_subsurface.h"
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#endif
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#if BVH_FEATURE(BVH_HAIR)
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# define NODE_INTERSECT bvh_node_intersect
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#else
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# define NODE_INTERSECT bvh_aligned_node_intersect
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#endif
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/* This is a template BVH traversal function for subsurface scattering, where
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* various features can be enabled/disabled. This way we can compile optimized
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* versions for each case without new features slowing things down.
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*
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* BVH_MOTION: motion blur rendering
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*
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*/
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#ifndef __KERNEL_GPU__
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ccl_device
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#else
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ccl_device_inline
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#endif
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void BVH_FUNCTION_FULL_NAME(BVH)(KernelGlobals *kg,
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const Ray *ray,
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SubsurfaceIntersection *ss_isect,
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int subsurface_object,
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uint *lcg_state,
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int max_hits)
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{
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/* todo:
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* - test if pushing distance on the stack helps (for non shadow rays)
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* - separate version for shadow rays
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* - likely and unlikely for if() statements
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* - test restrict attribute for pointers
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*/
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/* traversal stack in CUDA thread-local memory */
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int traversal_stack[BVH_STACK_SIZE];
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traversal_stack[0] = ENTRYPOINT_SENTINEL;
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/* traversal variables in registers */
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int stack_ptr = 0;
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int node_addr = kernel_tex_fetch(__object_node, subsurface_object);
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/* ray parameters in registers */
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float3 P = ray->P;
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float3 dir = bvh_clamp_direction(ray->D);
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float3 idir = bvh_inverse_direction(dir);
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int object = OBJECT_NONE;
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float isect_t = ray->t;
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ss_isect->num_hits = 0;
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const int object_flag = kernel_tex_fetch(__object_flag, subsurface_object);
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if(!(object_flag & SD_OBJECT_TRANSFORM_APPLIED)) {
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#if BVH_FEATURE(BVH_MOTION)
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Transform ob_itfm;
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isect_t = bvh_instance_motion_push(kg,
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subsurface_object,
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ray,
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&P,
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&dir,
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&idir,
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isect_t,
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&ob_itfm);
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#else
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isect_t = bvh_instance_push(kg, subsurface_object, ray, &P, &dir, &idir, isect_t);
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#endif
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object = subsurface_object;
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}
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#if defined(__KERNEL_SSE2__)
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const shuffle_swap_t shuf_identity = shuffle_swap_identity();
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const shuffle_swap_t shuf_swap = shuffle_swap_swap();
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const ssef pn = cast(ssei(0, 0, 0x80000000, 0x80000000));
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ssef Psplat[3], idirsplat[3];
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# if BVH_FEATURE(BVH_HAIR)
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ssef tnear(0.0f), tfar(isect_t);
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# endif
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shuffle_swap_t shufflexyz[3];
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Psplat[0] = ssef(P.x);
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Psplat[1] = ssef(P.y);
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Psplat[2] = ssef(P.z);
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ssef tsplat(0.0f, 0.0f, -isect_t, -isect_t);
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gen_idirsplat_swap(pn, shuf_identity, shuf_swap, idir, idirsplat, shufflexyz);
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#endif
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/* traversal loop */
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do {
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do {
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/* traverse internal nodes */
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while(node_addr >= 0 && node_addr != ENTRYPOINT_SENTINEL) {
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int node_addr_child1, traverse_mask;
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float dist[2];
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float4 cnodes = kernel_tex_fetch(__bvh_nodes, node_addr+0);
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#if !defined(__KERNEL_SSE2__)
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traverse_mask = NODE_INTERSECT(kg,
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P,
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# if BVH_FEATURE(BVH_HAIR)
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dir,
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# endif
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idir,
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isect_t,
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node_addr,
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PATH_RAY_ALL_VISIBILITY,
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dist);
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#else // __KERNEL_SSE2__
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traverse_mask = NODE_INTERSECT(kg,
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P,
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dir,
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# if BVH_FEATURE(BVH_HAIR)
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tnear,
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tfar,
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# endif
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tsplat,
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Psplat,
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idirsplat,
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shufflexyz,
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node_addr,
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PATH_RAY_ALL_VISIBILITY,
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dist);
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#endif // __KERNEL_SSE2__
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node_addr = __float_as_int(cnodes.z);
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node_addr_child1 = __float_as_int(cnodes.w);
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if(traverse_mask == 3) {
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/* Both children were intersected, push the farther one. */
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bool is_closest_child1 = (dist[1] < dist[0]);
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if(is_closest_child1) {
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int tmp = node_addr;
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node_addr = node_addr_child1;
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node_addr_child1 = tmp;
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}
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++stack_ptr;
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kernel_assert(stack_ptr < BVH_STACK_SIZE);
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traversal_stack[stack_ptr] = node_addr_child1;
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}
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else {
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/* One child was intersected. */
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if(traverse_mask == 2) {
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node_addr = node_addr_child1;
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}
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else if(traverse_mask == 0) {
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/* Neither child was intersected. */
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node_addr = traversal_stack[stack_ptr];
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--stack_ptr;
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}
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}
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}
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/* if node is leaf, fetch triangle list */
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if(node_addr < 0) {
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float4 leaf = kernel_tex_fetch(__bvh_leaf_nodes, (-node_addr-1));
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int prim_addr = __float_as_int(leaf.x);
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const int prim_addr2 = __float_as_int(leaf.y);
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const uint type = __float_as_int(leaf.w);
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/* pop */
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node_addr = traversal_stack[stack_ptr];
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--stack_ptr;
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/* primitive intersection */
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switch(type & PRIMITIVE_ALL) {
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case PRIMITIVE_TRIANGLE: {
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/* intersect ray against primitive */
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for(; prim_addr < prim_addr2; prim_addr++) {
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kernel_assert(kernel_tex_fetch(__prim_type, prim_addr) == type);
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triangle_intersect_subsurface(kg,
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ss_isect,
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P,
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dir,
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object,
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prim_addr,
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isect_t,
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lcg_state,
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max_hits);
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}
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break;
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}
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#if BVH_FEATURE(BVH_MOTION)
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case PRIMITIVE_MOTION_TRIANGLE: {
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/* intersect ray against primitive */
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for(; prim_addr < prim_addr2; prim_addr++) {
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kernel_assert(kernel_tex_fetch(__prim_type, prim_addr) == type);
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motion_triangle_intersect_subsurface(kg,
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ss_isect,
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P,
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dir,
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ray->time,
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object,
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prim_addr,
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isect_t,
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lcg_state,
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max_hits);
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}
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break;
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}
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#endif
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default: {
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break;
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}
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}
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}
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} while(node_addr != ENTRYPOINT_SENTINEL);
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} while(node_addr != ENTRYPOINT_SENTINEL);
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}
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ccl_device_inline void BVH_FUNCTION_NAME(KernelGlobals *kg,
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const Ray *ray,
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SubsurfaceIntersection *ss_isect,
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int subsurface_object,
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uint *lcg_state,
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int max_hits)
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{
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#ifdef __QBVH__
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if(kernel_data.bvh.use_qbvh) {
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return BVH_FUNCTION_FULL_NAME(QBVH)(kg,
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ray,
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ss_isect,
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subsurface_object,
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lcg_state,
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max_hits);
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}
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else
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#endif
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{
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kernel_assert(kernel_data.bvh.use_qbvh == false);
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return BVH_FUNCTION_FULL_NAME(BVH)(kg,
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ray,
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ss_isect,
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subsurface_object,
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lcg_state,
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max_hits);
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}
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}
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#undef BVH_FUNCTION_NAME
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#undef BVH_FUNCTION_FEATURES
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#undef NODE_INTERSECT
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