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blender/intern/cycles/kernel/svm/svm_geometry.h
George Kyriazis 7f4479da42 Cycles: OpenCL kernel split 
This commit contains all the work related on the AMD megakernel split work
which was mainly done by Varun Sundar, George Kyriazis and Lenny Wang, plus
some help from Sergey Sharybin, Martijn Berger, Thomas Dinges and likely
someone else which we're forgetting to mention.

Currently only AMD cards are enabled for the new split kernel, but it is
possible to force split opencl kernel to be used by setting the following
environment variable: CYCLES_OPENCL_SPLIT_KERNEL_TEST=1.

Not all the features are supported yet, and that being said no motion blur,
camera blur, SSS and volumetrics for now. Also transparent shadows are
disabled on AMD device because of some compiler bug.

This kernel is also only implements regular path tracing and supporting
branched one will take a bit. Branched path tracing is exposed to the
interface still, which is a bit misleading and will be hidden there soon.

More feature will be enabled once they're ported to the split kernel and
tested.

Neither regular CPU nor CUDA has any difference, they're generating the
same exact code, which means no regressions/improvements there.

Based on the research paper:

  https://research.nvidia.com/sites/default/files/publications/laine2013hpg_paper.pdf

Here's the documentation:

  https://docs.google.com/document/d/1LuXW-CV-sVJkQaEGZlMJ86jZ8FmoPfecaMdR-oiWbUY/edit

Design discussion of the patch:

  https://developer.blender.org/T44197

Differential Revision: https://developer.blender.org/D1200
2015-05-09 19:52:40 +05:00

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/*
* Copyright 2011-2013 Blender Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
CCL_NAMESPACE_BEGIN
/* Geometry Node */
ccl_device void svm_node_geometry(KernelGlobals *kg, ShaderData *sd, float *stack, uint type, uint out_offset)
{
float3 data;
switch(type) {
case NODE_GEOM_P: data = ccl_fetch(sd, P); break;
case NODE_GEOM_N: data = ccl_fetch(sd, N); break;
#ifdef __DPDU__
case NODE_GEOM_T: data = primitive_tangent(kg, sd); break;
#endif
case NODE_GEOM_I: data = ccl_fetch(sd, I); break;
case NODE_GEOM_Ng: data = ccl_fetch(sd, Ng); break;
#ifdef __UV__
case NODE_GEOM_uv: data = make_float3(ccl_fetch(sd, u), ccl_fetch(sd, v), 0.0f); break;
#endif
}
stack_store_float3(stack, out_offset, data);
}
ccl_device void svm_node_geometry_bump_dx(KernelGlobals *kg, ShaderData *sd, float *stack, uint type, uint out_offset)
{
#ifdef __RAY_DIFFERENTIALS__
float3 data;
switch(type) {
case NODE_GEOM_P: data = ccl_fetch(sd, P) + ccl_fetch(sd, dP).dx; break;
case NODE_GEOM_uv: data = make_float3(ccl_fetch(sd, u) + ccl_fetch(sd, du).dx, ccl_fetch(sd, v) + ccl_fetch(sd, dv).dx, 0.0f); break;
default: svm_node_geometry(kg, sd, stack, type, out_offset); return;
}
stack_store_float3(stack, out_offset, data);
#else
svm_node_geometry(kg, sd, stack, type, out_offset);
#endif
}
ccl_device void svm_node_geometry_bump_dy(KernelGlobals *kg, ShaderData *sd, float *stack, uint type, uint out_offset)
{
#ifdef __RAY_DIFFERENTIALS__
float3 data;
switch(type) {
case NODE_GEOM_P: data = ccl_fetch(sd, P) + ccl_fetch(sd, dP).dy; break;
case NODE_GEOM_uv: data = make_float3(ccl_fetch(sd, u) + ccl_fetch(sd, du).dy, ccl_fetch(sd, v) + ccl_fetch(sd, dv).dy, 0.0f); break;
default: svm_node_geometry(kg, sd, stack, type, out_offset); return;
}
stack_store_float3(stack, out_offset, data);
#else
svm_node_geometry(kg, sd, stack, type, out_offset);
#endif
}
/* Object Info */
ccl_device void svm_node_object_info(KernelGlobals *kg, ShaderData *sd, float *stack, uint type, uint out_offset)
{
float data;
switch(type) {
case NODE_INFO_OB_LOCATION: {
stack_store_float3(stack, out_offset, object_location(kg, sd));
return;
}
case NODE_INFO_OB_INDEX: data = object_pass_id(kg, ccl_fetch(sd, object)); break;
case NODE_INFO_MAT_INDEX: data = shader_pass_id(kg, sd); break;
case NODE_INFO_OB_RANDOM: data = object_random_number(kg, ccl_fetch(sd, object)); break;
default: data = 0.0f; break;
}
stack_store_float(stack, out_offset, data);
}
/* Particle Info */
ccl_device void svm_node_particle_info(KernelGlobals *kg, ShaderData *sd, float *stack, uint type, uint out_offset)
{
switch(type) {
case NODE_INFO_PAR_INDEX: {
int particle_id = object_particle_id(kg, ccl_fetch(sd, object));
stack_store_float(stack, out_offset, particle_index(kg, particle_id));
break;
}
case NODE_INFO_PAR_AGE: {
int particle_id = object_particle_id(kg, ccl_fetch(sd, object));
stack_store_float(stack, out_offset, particle_age(kg, particle_id));
break;
}
case NODE_INFO_PAR_LIFETIME: {
int particle_id = object_particle_id(kg, ccl_fetch(sd, object));
stack_store_float(stack, out_offset, particle_lifetime(kg, particle_id));
break;
}
case NODE_INFO_PAR_LOCATION: {
int particle_id = object_particle_id(kg, ccl_fetch(sd, object));
stack_store_float3(stack, out_offset, particle_location(kg, particle_id));
break;
}
#if 0 /* XXX float4 currently not supported in SVM stack */
case NODE_INFO_PAR_ROTATION: {
int particle_id = object_particle_id(kg, ccl_fetch(sd, object));
stack_store_float4(stack, out_offset, particle_rotation(kg, particle_id));
break;
}
#endif
case NODE_INFO_PAR_SIZE: {
int particle_id = object_particle_id(kg, ccl_fetch(sd, object));
stack_store_float(stack, out_offset, particle_size(kg, particle_id));
break;
}
case NODE_INFO_PAR_VELOCITY: {
int particle_id = object_particle_id(kg, ccl_fetch(sd, object));
stack_store_float3(stack, out_offset, particle_velocity(kg, particle_id));
break;
}
case NODE_INFO_PAR_ANGULAR_VELOCITY: {
int particle_id = object_particle_id(kg, ccl_fetch(sd, object));
stack_store_float3(stack, out_offset, particle_angular_velocity(kg, particle_id));
break;
}
}
}
#ifdef __HAIR__
/* Hair Info */
ccl_device void svm_node_hair_info(KernelGlobals *kg, ShaderData *sd, float *stack, uint type, uint out_offset)
{
float data;
float3 data3;
switch(type) {
case NODE_INFO_CURVE_IS_STRAND: {
data = (ccl_fetch(sd, type) & PRIMITIVE_ALL_CURVE) != 0;
stack_store_float(stack, out_offset, data);
break;
}
case NODE_INFO_CURVE_INTERCEPT:
break; /* handled as attribute */
case NODE_INFO_CURVE_THICKNESS: {
data = curve_thickness(kg, sd);
stack_store_float(stack, out_offset, data);
break;
}
/*case NODE_INFO_CURVE_FADE: {
data = ccl_fetch(sd, curve_transparency);
stack_store_float(stack, out_offset, data);
break;
}*/
case NODE_INFO_CURVE_TANGENT_NORMAL: {
data3 = curve_tangent_normal(kg, sd);
stack_store_float3(stack, out_offset, data3);
break;
}
}
}
#endif
CCL_NAMESPACE_END
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