bool OSLRenderServices::getmessage(OSL::ShaderGlobals *sg,
ustring source,
ustring name,
TypeDesc type,
void *val,
bool derivatives)
{
OSLTraceData *tracedata = (OSLTraceData *)sg->tracedata;
if (source == u_trace && tracedata->init) {
if (name == u_hit) {
return set_attribute_int((tracedata->isect.prim != PRIM_NONE), type, derivatives, val);
}
else if (tracedata->isect.prim != PRIM_NONE) {
if (name == u_hitdist) {
float f[3] = {tracedata->isect.t, 0.0f, 0.0f};
return set_attribute_float(f, type, derivatives, val);
}
else {
ShaderData *sd = &tracedata->sd;
KernelGlobals *kg = sd->osl_globals;
if (!tracedata->setup) {
/* lazy shader data setup */
shader_setup_from_ray(kg, sd, &tracedata->isect, &tracedata->ray);
tracedata->setup = true;
}
if (name == u_N) {
return set_attribute_float3(sd->N, type, derivatives, val);
}
else if (name == u_Ng) {
return set_attribute_float3(sd->Ng, type, derivatives, val);
}
else if (name == u_P) {
float3 f[3] = {sd->P, sd->dP.dx, sd->dP.dy};
return set_attribute_float3(f, type, derivatives, val);
}
else if (name == u_I) {
float3 f[3] = {sd->I, sd->dI.dx, sd->dI.dy};
return set_attribute_float3(f, type, derivatives, val);
}
else if (name == u_u) {
float f[3] = {sd->u, sd->du.dx, sd->du.dy};
return set_attribute_float(f, type, derivatives, val);
}
else if (name == u_v) {
float f[3] = {sd->v, sd->dv.dx, sd->dv.dy};
return set_attribute_float(f, type, derivatives, val);
}
return get_attribute(sd, derivatives, u_empty, type, name, val);
}
}
}
return false;
}
static bool get_primitive_attribute(KernelGlobals *kg,
const ShaderData *sd,
const OSLGlobals::Attribute &attr,
const TypeDesc &type,
bool derivatives,
void *val)
{
if (attr.type == TypeDesc::TypePoint || attr.type == TypeDesc::TypeVector ||
attr.type == TypeDesc::TypeNormal || attr.type == TypeDesc::TypeColor) {
float3 fval[3];
fval[0] = primitive_attribute_float3(
kg, sd, attr.desc, (derivatives) ? &fval[1] : NULL, (derivatives) ? &fval[2] : NULL);
return set_attribute_float3(fval, type, derivatives, val);
}
else if (attr.type == TypeFloat2) {
float2 fval[2];
fval[0] = primitive_attribute_float2(
kg, sd, attr.desc, (derivatives) ? &fval[1] : NULL, (derivatives) ? &fval[2] : NULL);
return set_attribute_float2(fval, type, derivatives, val);
}
else if (attr.type == TypeDesc::TypeFloat) {
float fval[3];
fval[0] = primitive_attribute_float(
kg, sd, attr.desc, (derivatives) ? &fval[1] : NULL, (derivatives) ? &fval[2] : NULL);
return set_attribute_float(fval, type, derivatives, val);
}
else {
return false;
}
}
static bool set_attribute_float(float f, TypeDesc type, bool derivatives, void *val)
{
float fv[3];
fv[0] = f;
fv[1] = 0.0f;
fv[2] = 0.0f;
return set_attribute_float(fv, type, derivatives, val);
}
bool OSLRenderServices::get_background_attribute(KernelGlobals *kg, ShaderData *sd, ustring name,
TypeDesc type, bool derivatives, void *val)
{
/* Ray Length */
if (name == u_path_ray_length) {
float f = sd->ray_length;
return set_attribute_float(f, type, derivatives, val);
}
else
return false;
}
bool OSLRenderServices::get_background_attribute(KernelGlobals *kg, ShaderData *sd, ustring name,
TypeDesc type, bool derivatives, void *val)
{
if (name == u_path_ray_length) {
/* Ray Length */
float f = sd->ray_length;
return set_attribute_float(f, type, derivatives, val);
}
else if (name == u_path_ray_depth) {
/* Ray Depth */
int f = sd->ray_depth;
return set_attribute_int(f, type, derivatives, val);
}
else if (name == u_ndc) {
/* NDC coordinates with special exception for otho */
OSLThreadData *tdata = kg->osl_tdata;
OSL::ShaderGlobals *globals = &tdata->globals;
float3 ndc[3];
if((globals->raytype & PATH_RAY_CAMERA) && sd->object == ~0 && kernel_data.cam.type == CAMERA_ORTHOGRAPHIC) {
ndc[0] = camera_world_to_ndc(kg, sd, sd->ray_P);
if(derivatives) {
ndc[1] = camera_world_to_ndc(kg, sd, sd->ray_P + sd->ray_dP.dx) - ndc[0];
ndc[2] = camera_world_to_ndc(kg, sd, sd->ray_P + sd->ray_dP.dy) - ndc[0];
}
}
else {
ndc[0] = camera_world_to_ndc(kg, sd, sd->P);
if(derivatives) {
ndc[1] = camera_world_to_ndc(kg, sd, sd->P + sd->dP.dx) - ndc[0];
ndc[2] = camera_world_to_ndc(kg, sd, sd->P + sd->dP.dy) - ndc[0];
}
}
return set_attribute_float3(ndc, type, derivatives, val);
}
else
return false;
}
bool OSLRenderServices::get_object_standard_attribute(KernelGlobals *kg, ShaderData *sd, ustring name,
TypeDesc type, bool derivatives, void *val)
{
/* todo: turn this into hash table? */
/* Object Attributes */
if (name == u_object_location) {
float3 f = object_location(kg, sd);
return set_attribute_float3(f, type, derivatives, val);
}
else if (name == u_object_index) {
float f = object_pass_id(kg, sd->object);
return set_attribute_float(f, type, derivatives, val);
}
else if (name == u_geom_dupli_generated) {
float3 f = object_dupli_generated(kg, sd->object);
return set_attribute_float3(f, type, derivatives, val);
}
else if (name == u_geom_dupli_uv) {
float3 f = object_dupli_uv(kg, sd->object);
return set_attribute_float3(f, type, derivatives, val);
}
else if (name == u_material_index) {
float f = shader_pass_id(kg, sd);
return set_attribute_float(f, type, derivatives, val);
}
else if (name == u_object_random) {
float f = object_random_number(kg, sd->object);
return set_attribute_float(f, type, derivatives, val);
}
/* Particle Attributes */
else if (name == u_particle_index) {
uint particle_id = object_particle_id(kg, sd->object);
float f = particle_index(kg, particle_id);
return set_attribute_float(f, type, derivatives, val);
}
else if (name == u_particle_age) {
uint particle_id = object_particle_id(kg, sd->object);
float f = particle_age(kg, particle_id);
return set_attribute_float(f, type, derivatives, val);
}
else if (name == u_particle_lifetime) {
uint particle_id = object_particle_id(kg, sd->object);
float f= particle_lifetime(kg, particle_id);
return set_attribute_float(f, type, derivatives, val);
}
else if (name == u_particle_location) {
uint particle_id = object_particle_id(kg, sd->object);
float3 f = particle_location(kg, particle_id);
return set_attribute_float3(f, type, derivatives, val);
}
#if 0 /* unsupported */
else if (name == u_particle_rotation) {
uint particle_id = object_particle_id(kg, sd->object);
float4 f = particle_rotation(kg, particle_id);
return set_attribute_float4(f, type, derivatives, val);
}
#endif
else if (name == u_particle_size) {
uint particle_id = object_particle_id(kg, sd->object);
float f = particle_size(kg, particle_id);
return set_attribute_float(f, type, derivatives, val);
}
else if (name == u_particle_velocity) {
uint particle_id = object_particle_id(kg, sd->object);
float3 f = particle_velocity(kg, particle_id);
return set_attribute_float3(f, type, derivatives, val);
}
else if (name == u_particle_angular_velocity) {
uint particle_id = object_particle_id(kg, sd->object);
float3 f = particle_angular_velocity(kg, particle_id);
return set_attribute_float3(f, type, derivatives, val);
}
/* Geometry Attributes */
else if (name == u_geom_numpolyvertices) {
return set_attribute_int(3, type, derivatives, val);
}
else if ((name == u_geom_trianglevertices || name == u_geom_polyvertices)
#ifdef __HAIR__
&& sd->segment == ~0) {
#else
) {
#endif
float3 P[3];
triangle_vertices(kg, sd->prim, P);
if(!(sd->flag & SD_TRANSFORM_APPLIED)) {
object_position_transform(kg, sd, &P[0]);
object_position_transform(kg, sd, &P[1]);
object_position_transform(kg, sd, &P[2]);
}
return set_attribute_float3_3(P, type, derivatives, val);
}
else if(name == u_geom_name) {
ustring object_name = kg->osl->object_names[sd->object];
return set_attribute_string(object_name, type, derivatives, val);
}
#ifdef __HAIR__
/* Hair Attributes */
else if (name == u_is_curve) {
float f = (sd->segment != ~0);
return set_attribute_float(f, type, derivatives, val);
}
else if (name == u_curve_thickness) {
float f = curve_thickness(kg, sd);
return set_attribute_float(f, type, derivatives, val);
}
else if (name == u_curve_tangent_normal) {
float3 f = curve_tangent_normal(kg, sd);
return set_attribute_float3(f, type, derivatives, val);
}
#endif
else
return false;
}
bool OSLRenderServices::get_object_standard_attribute(KernelGlobals *kg, ShaderData *sd, ustring name,
TypeDesc type, bool derivatives, void *val)
{
/* todo: turn this into hash table? */
/* Object Attributes */
if(name == u_object_location) {
float3 f = object_location(kg, sd);
return set_attribute_float3(f, type, derivatives, val);
}
else if(name == u_object_index) {
float f = object_pass_id(kg, sd->object);
return set_attribute_float(f, type, derivatives, val);
}
else if(name == u_geom_dupli_generated) {
float3 f = object_dupli_generated(kg, sd->object);
return set_attribute_float3(f, type, derivatives, val);
}
else if(name == u_geom_dupli_uv) {
float3 f = object_dupli_uv(kg, sd->object);
return set_attribute_float3(f, type, derivatives, val);
}
else if(name == u_material_index) {
float f = shader_pass_id(kg, sd);
return set_attribute_float(f, type, derivatives, val);
}
else if(name == u_object_random) {
float f = object_random_number(kg, sd->object);
return set_attribute_float(f, type, derivatives, val);
}
/* Particle Attributes */
else if(name == u_particle_index) {
int particle_id = object_particle_id(kg, sd->object);
float f = particle_index(kg, particle_id);
return set_attribute_float(f, type, derivatives, val);
}
else if(name == u_particle_age) {
int particle_id = object_particle_id(kg, sd->object);
float f = particle_age(kg, particle_id);
return set_attribute_float(f, type, derivatives, val);
}
else if(name == u_particle_lifetime) {
int particle_id = object_particle_id(kg, sd->object);
float f = particle_lifetime(kg, particle_id);
return set_attribute_float(f, type, derivatives, val);
}
else if(name == u_particle_location) {
int particle_id = object_particle_id(kg, sd->object);
float3 f = particle_location(kg, particle_id);
return set_attribute_float3(f, type, derivatives, val);
}
#if 0 /* unsupported */
else if(name == u_particle_rotation) {
int particle_id = object_particle_id(kg, sd->object);
float4 f = particle_rotation(kg, particle_id);
return set_attribute_float4(f, type, derivatives, val);
}
#endif
else if(name == u_particle_size) {
int particle_id = object_particle_id(kg, sd->object);
float f = particle_size(kg, particle_id);
return set_attribute_float(f, type, derivatives, val);
}
else if(name == u_particle_velocity) {
int particle_id = object_particle_id(kg, sd->object);
float3 f = particle_velocity(kg, particle_id);
return set_attribute_float3(f, type, derivatives, val);
}
else if(name == u_particle_angular_velocity) {
int particle_id = object_particle_id(kg, sd->object);
float3 f = particle_angular_velocity(kg, particle_id);
return set_attribute_float3(f, type, derivatives, val);
}
/* Geometry Attributes */
else if(name == u_geom_numpolyvertices) {
return set_attribute_int(3, type, derivatives, val);
}
else if((name == u_geom_trianglevertices || name == u_geom_polyvertices)
#ifdef __HAIR__
&& sd->type & PRIMITIVE_ALL_TRIANGLE)
#else
)
#endif
{
float3 P[3];
if(sd->type & PRIMITIVE_TRIANGLE)
triangle_vertices(kg, sd->prim, P);
else
motion_triangle_vertices(kg, sd->object, sd->prim, sd->time, P);
if(!(sd->flag & SD_TRANSFORM_APPLIED)) {
object_position_transform(kg, sd, &P[0]);
object_position_transform(kg, sd, &P[1]);
object_position_transform(kg, sd, &P[2]);
}
return set_attribute_float3_3(P, type, derivatives, val);
}
else if(name == u_geom_name) {
