Patrick Mours
e6b38deb9d
This patch generalizes the OSL support in Cycles to include GPU device types and adds an implementation for that in the OptiX device. There are some caveats still, including simplified texturing due to lack of OIIO on the GPU and a few missing OSL intrinsics. Note that this is incomplete and missing an update to the OSL library before being enabled! The implementation is already committed now to simplify further development. Maniphest Tasks: T101222 Differential Revision: https://developer.blender.org/D15902
247 lines
7.6 KiB
C++
247 lines
7.6 KiB
C++
/* SPDX-License-Identifier: BSD-3-Clause
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*
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* Adapted from Open Shading Language
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* Copyright (c) 2009-2010 Sony Pictures Imageworks Inc., et al.
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* All Rights Reserved.
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*
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* Modifications Copyright 2011-2022 Blender Foundation. */
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#include <OSL/genclosure.h>
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#include <OSL/oslclosure.h>
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#include "kernel/types.h"
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#include "kernel/osl/globals.h"
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#include "kernel/osl/services.h"
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#include "util/math.h"
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#include "util/param.h"
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#include "kernel/device/cpu/compat.h"
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#include "kernel/device/cpu/globals.h"
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#include "kernel/geom/object.h"
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#include "kernel/util/differential.h"
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#include "kernel/osl/osl.h"
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#define TO_VEC3(v) OSL::Vec3(v.x, v.y, v.z)
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#define TO_FLOAT3(v) make_float3(v[0], v[1], v[2])
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CCL_NAMESPACE_BEGIN
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static_assert(sizeof(OSLClosure) == sizeof(OSL::ClosureColor) &&
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sizeof(OSLClosureAdd) == sizeof(OSL::ClosureAdd) &&
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sizeof(OSLClosureMul) == sizeof(OSL::ClosureMul) &&
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sizeof(OSLClosureComponent) == sizeof(OSL::ClosureComponent));
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static_assert(sizeof(ShaderGlobals) == sizeof(OSL::ShaderGlobals) &&
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offsetof(ShaderGlobals, Ci) == offsetof(OSL::ShaderGlobals, Ci));
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/* Registration */
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#define OSL_CLOSURE_STRUCT_BEGIN(Upper, lower) \
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static OSL::ClosureParam *osl_closure_##lower##_params() \
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{ \
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static OSL::ClosureParam params[] = {
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#define OSL_CLOSURE_STRUCT_END(Upper, lower) \
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CLOSURE_STRING_KEYPARAM(Upper##Closure, label, "label"), CLOSURE_FINISH_PARAM(Upper##Closure) \
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} \
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; \
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return params; \
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}
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#define OSL_CLOSURE_STRUCT_MEMBER(Upper, TYPE, type, name, key) \
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CLOSURE_##TYPE##_KEYPARAM(Upper##Closure, name, key),
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#define OSL_CLOSURE_STRUCT_ARRAY_MEMBER(Upper, TYPE, type, name, key, size) \
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CLOSURE_##TYPE##_ARRAY_PARAM(Upper##Closure, name, size),
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#include "closures_template.h"
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void OSLRenderServices::register_closures(OSL::ShadingSystem *ss)
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{
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#define OSL_CLOSURE_STRUCT_BEGIN(Upper, lower) \
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ss->register_closure( \
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#lower, OSL_CLOSURE_##Upper##_ID, osl_closure_##lower##_params(), nullptr, nullptr);
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#include "closures_template.h"
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}
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/* Surface & Background */
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template<>
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void osl_eval_nodes<SHADER_TYPE_SURFACE>(const KernelGlobalsCPU *kg,
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const void *state,
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ShaderData *sd,
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uint32_t path_flag)
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{
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/* setup shader globals from shader data */
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OSLThreadData *tdata = kg->osl_tdata;
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shaderdata_to_shaderglobals(
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kg, sd, path_flag, reinterpret_cast<ShaderGlobals *>(&tdata->globals));
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/* clear trace data */
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tdata->tracedata.init = false;
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/* Used by render-services. */
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sd->osl_globals = kg;
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if (path_flag & PATH_RAY_SHADOW) {
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sd->osl_path_state = nullptr;
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sd->osl_shadow_path_state = (const IntegratorShadowStateCPU *)state;
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}
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else {
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sd->osl_path_state = (const IntegratorStateCPU *)state;
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sd->osl_shadow_path_state = nullptr;
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}
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/* execute shader for this point */
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OSL::ShadingSystem *ss = (OSL::ShadingSystem *)kg->osl_ss;
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OSL::ShaderGlobals *globals = &tdata->globals;
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OSL::ShadingContext *octx = tdata->context;
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int shader = sd->shader & SHADER_MASK;
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if (sd->object == OBJECT_NONE && sd->lamp == LAMP_NONE) {
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/* background */
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if (kg->osl->background_state) {
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ss->execute(octx, *(kg->osl->background_state), *globals);
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}
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}
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else {
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/* automatic bump shader */
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if (kg->osl->bump_state[shader]) {
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/* save state */
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const float3 P = sd->P;
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const float dP = sd->dP;
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const OSL::Vec3 dPdx = globals->dPdx;
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const OSL::Vec3 dPdy = globals->dPdy;
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/* set state as if undisplaced */
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if (sd->flag & SD_HAS_DISPLACEMENT) {
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float data[9];
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bool found = kg->osl->services->get_attribute(sd,
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true,
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OSLRenderServices::u_empty,
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TypeDesc::TypeVector,
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OSLRenderServices::u_geom_undisplaced,
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data);
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(void)found;
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assert(found);
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differential3 tmp_dP;
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memcpy(&sd->P, data, sizeof(float) * 3);
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memcpy(&tmp_dP.dx, data + 3, sizeof(float) * 3);
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memcpy(&tmp_dP.dy, data + 6, sizeof(float) * 3);
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object_position_transform(kg, sd, &sd->P);
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object_dir_transform(kg, sd, &tmp_dP.dx);
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object_dir_transform(kg, sd, &tmp_dP.dy);
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sd->dP = differential_make_compact(tmp_dP);
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globals->P = TO_VEC3(sd->P);
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globals->dPdx = TO_VEC3(tmp_dP.dx);
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globals->dPdy = TO_VEC3(tmp_dP.dy);
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}
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/* execute bump shader */
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ss->execute(octx, *(kg->osl->bump_state[shader]), *globals);
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/* reset state */
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sd->P = P;
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sd->dP = dP;
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globals->P = TO_VEC3(P);
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globals->dPdx = TO_VEC3(dPdx);
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globals->dPdy = TO_VEC3(dPdy);
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}
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/* surface shader */
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if (kg->osl->surface_state[shader]) {
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ss->execute(octx, *(kg->osl->surface_state[shader]), *globals);
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}
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}
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/* flatten closure tree */
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if (globals->Ci) {
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flatten_closure_tree(kg, sd, path_flag, reinterpret_cast<OSLClosure *>(globals->Ci));
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}
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}
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/* Volume */
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template<>
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void osl_eval_nodes<SHADER_TYPE_VOLUME>(const KernelGlobalsCPU *kg,
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const void *state,
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ShaderData *sd,
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uint32_t path_flag)
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{
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/* setup shader globals from shader data */
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OSLThreadData *tdata = kg->osl_tdata;
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shaderdata_to_shaderglobals(
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kg, sd, path_flag, reinterpret_cast<ShaderGlobals *>(&tdata->globals));
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/* clear trace data */
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tdata->tracedata.init = false;
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/* Used by render-services. */
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sd->osl_globals = kg;
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if (path_flag & PATH_RAY_SHADOW) {
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sd->osl_path_state = nullptr;
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sd->osl_shadow_path_state = (const IntegratorShadowStateCPU *)state;
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}
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else {
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sd->osl_path_state = (const IntegratorStateCPU *)state;
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sd->osl_shadow_path_state = nullptr;
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}
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/* execute shader */
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OSL::ShadingSystem *ss = (OSL::ShadingSystem *)kg->osl_ss;
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OSL::ShaderGlobals *globals = &tdata->globals;
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OSL::ShadingContext *octx = tdata->context;
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int shader = sd->shader & SHADER_MASK;
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if (kg->osl->volume_state[shader]) {
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ss->execute(octx, *(kg->osl->volume_state[shader]), *globals);
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}
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/* flatten closure tree */
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if (globals->Ci) {
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flatten_closure_tree(kg, sd, path_flag, reinterpret_cast<OSLClosure *>(globals->Ci));
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}
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}
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/* Displacement */
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template<>
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void osl_eval_nodes<SHADER_TYPE_DISPLACEMENT>(const KernelGlobalsCPU *kg,
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const void *state,
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ShaderData *sd,
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uint32_t path_flag)
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{
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/* setup shader globals from shader data */
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OSLThreadData *tdata = kg->osl_tdata;
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shaderdata_to_shaderglobals(
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kg, sd, path_flag, reinterpret_cast<ShaderGlobals *>(&tdata->globals));
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/* clear trace data */
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tdata->tracedata.init = false;
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/* Used by render-services. */
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sd->osl_globals = kg;
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sd->osl_path_state = (const IntegratorStateCPU *)state;
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sd->osl_shadow_path_state = nullptr;
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/* execute shader */
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OSL::ShadingSystem *ss = (OSL::ShadingSystem *)kg->osl_ss;
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OSL::ShaderGlobals *globals = &tdata->globals;
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OSL::ShadingContext *octx = tdata->context;
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int shader = sd->shader & SHADER_MASK;
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if (kg->osl->displacement_state[shader]) {
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ss->execute(octx, *(kg->osl->displacement_state[shader]), *globals);
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}
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/* get back position */
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sd->P = TO_FLOAT3(globals->P);
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}
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CCL_NAMESPACE_END
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