blender/intern/cycles/kernel/osl/osl_shader.cpp

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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
*/
#include "kernel_compat_cpu.h"
#include "kernel_montecarlo.h"
#include "kernel_types.h"
#include "kernel_globals.h"
#include "geom/geom_object.h"
#include "closure/bsdf_diffuse.h"
#include "closure/bssrdf.h"
#include "osl_bssrdf.h"
#include "osl_closures.h"
#include "osl_globals.h"
#include "osl_services.h"
#include "osl_shader.h"
#include "util_foreach.h"
#include "attribute.h"
#include <OSL/oslexec.h>
CCL_NAMESPACE_BEGIN
/* Threads */
void OSLShader::thread_init(KernelGlobals *kg, KernelGlobals *kernel_globals, OSLGlobals *osl_globals)
{
/* no osl used? */
if(!osl_globals->use) {
kg->osl = NULL;
return;
}
/* per thread kernel data init*/
kg->osl = osl_globals;
kg->osl->services->thread_init(kernel_globals, osl_globals->ts);
OSL::ShadingSystem *ss = kg->osl->ss;
OSLThreadData *tdata = new OSLThreadData();
memset(&tdata->globals, 0, sizeof(OSL::ShaderGlobals));
tdata->globals.tracedata = &tdata->tracedata;
tdata->globals.flipHandedness = false;
tdata->osl_thread_info = ss->create_thread_info();
for(int i = 0; i < SHADER_CONTEXT_NUM; i++)
tdata->context[i] = ss->get_context(tdata->osl_thread_info);
tdata->oiio_thread_info = osl_globals->ts->get_perthread_info();
kg->osl_ss = (OSLShadingSystem*)ss;
kg->osl_tdata = tdata;
}
void OSLShader::thread_free(KernelGlobals *kg)
{
if(!kg->osl)
return;
OSL::ShadingSystem *ss = (OSL::ShadingSystem*)kg->osl_ss;
OSLThreadData *tdata = kg->osl_tdata;
for(int i = 0; i < SHADER_CONTEXT_NUM; i++)
ss->release_context(tdata->context[i]);
ss->destroy_thread_info(tdata->osl_thread_info);
delete tdata;
kg->osl = NULL;
kg->osl_ss = NULL;
kg->osl_tdata = NULL;
}
/* Globals */
static void shaderdata_to_shaderglobals(KernelGlobals *kg, ShaderData *sd,
int path_flag, OSLThreadData *tdata)
{
OSL::ShaderGlobals *globals = &tdata->globals;
/* copy from shader data to shader globals */
globals->P = TO_VEC3(sd->P);
globals->dPdx = TO_VEC3(sd->dP.dx);
globals->dPdy = TO_VEC3(sd->dP.dy);
globals->I = TO_VEC3(sd->I);
globals->dIdx = TO_VEC3(sd->dI.dx);
globals->dIdy = TO_VEC3(sd->dI.dy);
globals->N = TO_VEC3(sd->N);
globals->Ng = TO_VEC3(sd->Ng);
globals->u = sd->u;
globals->dudx = sd->du.dx;
globals->dudy = sd->du.dy;
globals->v = sd->v;
globals->dvdx = sd->dv.dx;
globals->dvdy = sd->dv.dy;
globals->dPdu = TO_VEC3(sd->dPdu);
globals->dPdv = TO_VEC3(sd->dPdv);
globals->surfacearea = (sd->object == OBJECT_NONE) ? 1.0f : object_surface_area(kg, sd->object);
globals->time = sd->time;
/* booleans */
globals->raytype = path_flag;
globals->backfacing = (sd->flag & SD_BACKFACING);
/* shader data to be used in services callbacks */
globals->renderstate = sd;
/* hacky, we leave it to services to fetch actual object matrix */
globals->shader2common = sd;
globals->object2common = sd;
/* must be set to NULL before execute */
globals->Ci = NULL;
/* clear trace data */
tdata->tracedata.init = false;
/* used by renderservices */
sd->osl_globals = kg;
}
/* Surface */
static void flatten_surface_closure_tree(ShaderData *sd, int path_flag,
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const OSL::ClosureColor *closure, float3 weight = make_float3(1.0f, 1.0f, 1.0f))
{
/* OSL gives us a closure tree, we flatten it into arrays per
* closure type, for evaluation, sampling, etc later on. */
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if (closure->type == OSL::ClosureColor::COMPONENT) {
OSL::ClosureComponent *comp = (OSL::ClosureComponent *)closure;
CClosurePrimitive *prim = (CClosurePrimitive *)comp->data();
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if (prim) {
ShaderClosure sc;
#ifdef OSL_SUPPORTS_WEIGHTED_CLOSURE_COMPONENTS
weight = weight*TO_FLOAT3(comp->w);
#endif
sc.weight = weight;
prim->setup();
switch (prim->category) {
case CClosurePrimitive::BSDF: {
CBSDFClosure *bsdf = (CBSDFClosure *)prim;
int scattering = bsdf->scattering();
/* no caustics option */
if(scattering == LABEL_GLOSSY && (path_flag & PATH_RAY_DIFFUSE)) {
KernelGlobals *kg = sd->osl_globals;
if(kernel_data.integrator.no_caustics)
return;
}
/* sample weight */
float sample_weight = fabsf(average(weight));
sc.sample_weight = sample_weight;
sc.type = bsdf->sc.type;
sc.N = bsdf->sc.N;
sc.T = bsdf->sc.T;
sc.data0 = bsdf->sc.data0;
sc.data1 = bsdf->sc.data1;
sc.data2 = bsdf->sc.data2;
sc.prim = bsdf->sc.prim;
/* add */
if(sc.sample_weight > CLOSURE_WEIGHT_CUTOFF && sd->num_closure < MAX_CLOSURE) {
sd->closure[sd->num_closure++] = sc;
sd->flag |= bsdf->shaderdata_flag();
}
break;
}
case CClosurePrimitive::Emissive: {
/* sample weight */
float sample_weight = fabsf(average(weight));
sc.sample_weight = sample_weight;
sc.type = CLOSURE_EMISSION_ID;
sc.data0 = 0.0f;
sc.data1 = 0.0f;
sc.data2 = 0.0f;
sc.prim = NULL;
/* flag */
if(sd->num_closure < MAX_CLOSURE) {
sd->closure[sd->num_closure++] = sc;
sd->flag |= SD_EMISSION;
}
break;
}
case CClosurePrimitive::AmbientOcclusion: {
/* sample weight */
float sample_weight = fabsf(average(weight));
sc.sample_weight = sample_weight;
sc.type = CLOSURE_AMBIENT_OCCLUSION_ID;
sc.data0 = 0.0f;
sc.data1 = 0.0f;
sc.data2 = 0.0f;
sc.prim = NULL;
if(sd->num_closure < MAX_CLOSURE) {
sd->closure[sd->num_closure++] = sc;
sd->flag |= SD_AO;
}
break;
}
case CClosurePrimitive::Holdout: {
sc.sample_weight = 0.0f;
sc.type = CLOSURE_HOLDOUT_ID;
sc.data0 = 0.0f;
sc.data1 = 0.0f;
sc.data2 = 0.0f;
sc.prim = NULL;
if(sd->num_closure < MAX_CLOSURE) {
sd->closure[sd->num_closure++] = sc;
sd->flag |= SD_HOLDOUT;
}
break;
}
case CClosurePrimitive::BSSRDF: {
CBSSRDFClosure *bssrdf = (CBSSRDFClosure *)prim;
float sample_weight = fabsf(average(weight));
if(sample_weight > CLOSURE_WEIGHT_CUTOFF && sd->num_closure+2 < MAX_CLOSURE) {
sc.sample_weight = sample_weight;
sc.type = bssrdf->sc.type;
sc.N = bssrdf->sc.N;
sc.data1 = bssrdf->sc.data1;
sc.T.x = bssrdf->sc.T.x;
sc.prim = NULL;
/* disable in case of diffuse ancestor, can't see it well then and
* adds considerably noise due to probabilities of continuing path
* getting lower and lower */
if(path_flag & PATH_RAY_DIFFUSE_ANCESTOR)
bssrdf->radius = make_float3(0.0f, 0.0f, 0.0f);
/* create one closure for each color channel */
if(fabsf(weight.x) > 0.0f) {
sc.weight = make_float3(weight.x, 0.0f, 0.0f);
sc.data0 = bssrdf->radius.x;
sd->flag |= bssrdf_setup(&sc, sc.type);
sd->closure[sd->num_closure++] = sc;
}
if(fabsf(weight.y) > 0.0f) {
sc.weight = make_float3(0.0f, weight.y, 0.0f);
sc.data0 = bssrdf->radius.y;
sd->flag |= bssrdf_setup(&sc, sc.type);
sd->closure[sd->num_closure++] = sc;
}
if(fabsf(weight.z) > 0.0f) {
sc.weight = make_float3(0.0f, 0.0f, weight.z);
sc.data0 = bssrdf->radius.z;
sd->flag |= bssrdf_setup(&sc, sc.type);
sd->closure[sd->num_closure++] = sc;
}
}
break;
}
case CClosurePrimitive::Background:
case CClosurePrimitive::Volume:
break; /* not relevant */
}
}
}
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else if (closure->type == OSL::ClosureColor::MUL) {
OSL::ClosureMul *mul = (OSL::ClosureMul *)closure;
flatten_surface_closure_tree(sd, path_flag, mul->closure, TO_FLOAT3(mul->weight) * weight);
}
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else if (closure->type == OSL::ClosureColor::ADD) {
OSL::ClosureAdd *add = (OSL::ClosureAdd *)closure;
flatten_surface_closure_tree(sd, path_flag, add->closureA, weight);
flatten_surface_closure_tree(sd, path_flag, add->closureB, weight);
}
}
void OSLShader::eval_surface(KernelGlobals *kg, ShaderData *sd, int path_flag, ShaderContext ctx)
{
/* setup shader globals from shader data */
OSLThreadData *tdata = kg->osl_tdata;
shaderdata_to_shaderglobals(kg, sd, path_flag, tdata);
/* execute shader for this point */
OSL::ShadingSystem *ss = (OSL::ShadingSystem*)kg->osl_ss;
OSL::ShaderGlobals *globals = &tdata->globals;
OSL::ShadingContext *octx = tdata->context[(int)ctx];
int shader = sd->shader & SHADER_MASK;
if (kg->osl->surface_state[shader])
ss->execute(*octx, *(kg->osl->surface_state[shader]), *globals);
/* flatten closure tree */
if (globals->Ci)
flatten_surface_closure_tree(sd, path_flag, globals->Ci);
}
/* Background */
static float3 flatten_background_closure_tree(const OSL::ClosureColor *closure)
{
/* OSL gives us a closure tree, if we are shading for background there
* is only one supported closure type at the moment, which has no evaluation
* functions, so we just sum the weights */
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if (closure->type == OSL::ClosureColor::COMPONENT) {
OSL::ClosureComponent *comp = (OSL::ClosureComponent *)closure;
CClosurePrimitive *prim = (CClosurePrimitive *)comp->data();
if (prim && prim->category == CClosurePrimitive::Background)
#ifdef OSL_SUPPORTS_WEIGHTED_CLOSURE_COMPONENTS
return TO_FLOAT3(comp->w);
#else
return make_float3(1.0f, 1.0f, 1.0f);
#endif
}
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else if (closure->type == OSL::ClosureColor::MUL) {
OSL::ClosureMul *mul = (OSL::ClosureMul *)closure;
return TO_FLOAT3(mul->weight) * flatten_background_closure_tree(mul->closure);
}
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else if (closure->type == OSL::ClosureColor::ADD) {
OSL::ClosureAdd *add = (OSL::ClosureAdd *)closure;
return flatten_background_closure_tree(add->closureA) +
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flatten_background_closure_tree(add->closureB);
}
return make_float3(0.0f, 0.0f, 0.0f);
}
float3 OSLShader::eval_background(KernelGlobals *kg, ShaderData *sd, int path_flag, ShaderContext ctx)
{
/* setup shader globals from shader data */
OSLThreadData *tdata = kg->osl_tdata;
shaderdata_to_shaderglobals(kg, sd, path_flag, tdata);
/* execute shader for this point */
OSL::ShadingSystem *ss = (OSL::ShadingSystem*)kg->osl_ss;
OSL::ShaderGlobals *globals = &tdata->globals;
OSL::ShadingContext *octx = tdata->context[(int)ctx];
if (kg->osl->background_state)
ss->execute(*octx, *(kg->osl->background_state), *globals);
/* return background color immediately */
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if (globals->Ci)
return flatten_background_closure_tree(globals->Ci);
return make_float3(0.0f, 0.0f, 0.0f);
}
/* Volume */
static void flatten_volume_closure_tree(ShaderData *sd,
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const OSL::ClosureColor *closure, float3 weight = make_float3(1.0f, 1.0f, 1.0f))
{
/* OSL gives us a closure tree, we flatten it into arrays per
* closure type, for evaluation, sampling, etc later on. */
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if (closure->type == OSL::ClosureColor::COMPONENT) {
OSL::ClosureComponent *comp = (OSL::ClosureComponent *)closure;
CClosurePrimitive *prim = (CClosurePrimitive *)comp->data();
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if (prim) {
ShaderClosure sc;
#ifdef OSL_SUPPORTS_WEIGHTED_CLOSURE_COMPONENTS
weight = weight*TO_FLOAT3(comp->w);
#endif
sc.weight = weight;
prim->setup();
switch (prim->category) {
case CClosurePrimitive::Volume: {
CVolumeClosure *volume = (CVolumeClosure *)prim;
/* sample weight */
float sample_weight = fabsf(average(weight));
sc.sample_weight = sample_weight;
sc.type = volume->sc.type;
sc.data0 = volume->sc.data0;
sc.data1 = volume->sc.data1;
/* add */
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if((sc.sample_weight > CLOSURE_WEIGHT_CUTOFF) &&
(sd->num_closure < MAX_CLOSURE))
{
sd->closure[sd->num_closure++] = sc;
sd->flag |= volume->shaderdata_flag();
}
break;
}
case CClosurePrimitive::Emissive: {
/* sample weight */
float sample_weight = fabsf(average(weight));
sc.sample_weight = sample_weight;
sc.type = CLOSURE_EMISSION_ID;
sc.data0 = 0.0f;
sc.data1 = 0.0f;
sc.prim = NULL;
/* flag */
if(sd->num_closure < MAX_CLOSURE) {
sd->closure[sd->num_closure++] = sc;
sd->flag |= SD_EMISSION;
}
break;
}
case CClosurePrimitive::Holdout:
break; /* not implemented */
case CClosurePrimitive::Background:
case CClosurePrimitive::BSDF:
case CClosurePrimitive::BSSRDF:
case CClosurePrimitive::AmbientOcclusion:
break; /* not relevant */
}
}
}
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else if (closure->type == OSL::ClosureColor::MUL) {
OSL::ClosureMul *mul = (OSL::ClosureMul *)closure;
flatten_volume_closure_tree(sd, mul->closure, TO_FLOAT3(mul->weight) * weight);
}
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else if (closure->type == OSL::ClosureColor::ADD) {
OSL::ClosureAdd *add = (OSL::ClosureAdd *)closure;
flatten_volume_closure_tree(sd, add->closureA, weight);
flatten_volume_closure_tree(sd, add->closureB, weight);
}
}
void OSLShader::eval_volume(KernelGlobals *kg, ShaderData *sd, int path_flag, ShaderContext ctx)
{
/* setup shader globals from shader data */
OSLThreadData *tdata = kg->osl_tdata;
shaderdata_to_shaderglobals(kg, sd, path_flag, tdata);
/* execute shader */
OSL::ShadingSystem *ss = (OSL::ShadingSystem*)kg->osl_ss;
OSL::ShaderGlobals *globals = &tdata->globals;
OSL::ShadingContext *octx = tdata->context[(int)ctx];
int shader = sd->shader & SHADER_MASK;
if (kg->osl->volume_state[shader])
ss->execute(*octx, *(kg->osl->volume_state[shader]), *globals);
/* flatten closure tree */
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if (globals->Ci)
flatten_volume_closure_tree(sd, globals->Ci);
}
/* Displacement */
void OSLShader::eval_displacement(KernelGlobals *kg, ShaderData *sd, ShaderContext ctx)
{
/* setup shader globals from shader data */
OSLThreadData *tdata = kg->osl_tdata;
shaderdata_to_shaderglobals(kg, sd, 0, tdata);
/* execute shader */
OSL::ShadingSystem *ss = (OSL::ShadingSystem*)kg->osl_ss;
OSL::ShaderGlobals *globals = &tdata->globals;
OSL::ShadingContext *octx = tdata->context[(int)ctx];
int shader = sd->shader & SHADER_MASK;
if (kg->osl->displacement_state[shader])
ss->execute(*octx, *(kg->osl->displacement_state[shader]), *globals);
/* get back position */
sd->P = TO_FLOAT3(globals->P);
}
/* BSDF Closure */
int OSLShader::bsdf_sample(const ShaderData *sd, const ShaderClosure *sc, float randu, float randv, float3& eval, float3& omega_in, differential3& domega_in, float& pdf)
{
CBSDFClosure *sample_bsdf = (CBSDFClosure *)sc->prim;
pdf = 0.0f;
return sample_bsdf->sample(sd->Ng,
sd->I, sd->dI.dx, sd->dI.dy,
randu, randv,
omega_in, domega_in.dx, domega_in.dy,
pdf, eval);
}
float3 OSLShader::bsdf_eval(const ShaderData *sd, const ShaderClosure *sc, const float3& omega_in, float& pdf)
{
CBSDFClosure *bsdf = (CBSDFClosure *)sc->prim;
float3 bsdf_eval;
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if (dot(sd->Ng, omega_in) >= 0.0f)
bsdf_eval = bsdf->eval_reflect(sd->I, omega_in, pdf);
else
bsdf_eval = bsdf->eval_transmit(sd->I, omega_in, pdf);
return bsdf_eval;
}
void OSLShader::bsdf_blur(ShaderClosure *sc, float roughness)
{
CBSDFClosure *bsdf = (CBSDFClosure *)sc->prim;
bsdf->blur(roughness);
}
/* Attributes */
int OSLShader::find_attribute(KernelGlobals *kg, const ShaderData *sd, uint id, AttributeElement *elem)
{
/* for OSL, a hash map is used to lookup the attribute by name. */
int object = sd->object*ATTR_PRIM_TYPES;
#ifdef __HAIR__
if(sd->type & PRIMITIVE_ALL_CURVE) object += ATTR_PRIM_CURVE;
#endif
OSLGlobals::AttributeMap &attr_map = kg->osl->attribute_map[object];
ustring stdname(std::string("geom:") + std::string(Attribute::standard_name((AttributeStandard)id)));
OSLGlobals::AttributeMap::const_iterator it = attr_map.find(stdname);
if (it != attr_map.end()) {
const OSLGlobals::Attribute &osl_attr = it->second;
*elem = osl_attr.elem;
if(sd->prim == PRIM_NONE && (AttributeElement)osl_attr.elem != ATTR_ELEMENT_MESH)
return ATTR_STD_NOT_FOUND;
/* return result */
return (osl_attr.elem == ATTR_ELEMENT_NONE) ? (int)ATTR_STD_NOT_FOUND : osl_attr.offset;
}
else
return (int)ATTR_STD_NOT_FOUND;
}
CCL_NAMESPACE_END