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151a53110c3fe030cda2ade964bb37c19a77e4f3
blender-archive/source/blender/nodes/intern/node_geometry_exec.cc
Jacques Lucke ca32fb604e Geometry Nodes: support outputting field without computing full node 
Many nodes output anonymous attributes (e.g. the top selection in the
Cylinder node). The actual data is only contained in the geometry output
though. The field output just contains a reference to this data (essentially
just the generated name of an attribute). This data can be output even
without computing the geometry itself.

As of right now, this only simplifies the code a bit, but does not have a
bigger impact, because to use the anonymous attribute, you always need
the geometry anyway. However, with the upcoming simulation nodes,
it's possible to create the anonymous attribute in one frame and to access
it in another frame. In the other frame we only need the anonymous
attribute reference and don't have to create the actual geometry again.
Skipping creating the actual attribute on the geometry can have a
significant performance benefit.
2023-04-24 11:42:05 +02:00

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/* SPDX-License-Identifier: GPL-2.0-or-later */
#include "DNA_modifier_types.h"
#include "DEG_depsgraph_query.h"
#include "BKE_curves.hh"
#include "BKE_type_conversions.hh"
#include "NOD_geometry_exec.hh"
#include "node_geometry_util.hh"
namespace blender::nodes {
void GeoNodeExecParams::error_message_add(const NodeWarningType type,
const StringRef message) const
{
if (geo_eval_log::GeoTreeLogger *tree_logger = this->get_local_tree_logger()) {
tree_logger->node_warnings.append(
{node_.identifier, {type, tree_logger->allocator->copy_string(message)}});
}
}
void GeoNodeExecParams::used_named_attribute(const StringRef attribute_name,
const NamedAttributeUsage usage)
{
if (geo_eval_log::GeoTreeLogger *tree_logger = this->get_local_tree_logger()) {
tree_logger->used_named_attributes.append(
{node_.identifier, tree_logger->allocator->copy_string(attribute_name), usage});
}
}
void GeoNodeExecParams::check_input_geometry_set(StringRef identifier,
const GeometrySet &geometry_set) const
{
const SocketDeclaration &decl = *node_.input_by_identifier(identifier).runtime->declaration;
const decl::Geometry *geo_decl = dynamic_cast<const decl::Geometry *>(&decl);
if (geo_decl == nullptr) {
return;
}
const bool only_realized_data = geo_decl->only_realized_data();
const bool only_instances = geo_decl->only_instances();
const Span<GeometryComponentType> supported_types = geo_decl->supported_types();
if (only_realized_data) {
if (geometry_set.has_instances()) {
this->error_message_add(NodeWarningType::Info,
TIP_("Instances in input geometry are ignored"));
}
}
if (only_instances) {
if (geometry_set.has_realized_data()) {
this->error_message_add(NodeWarningType::Info,
TIP_("Realized data in input geometry is ignored"));
}
}
if (supported_types.is_empty()) {
/* Assume all types are supported. */
return;
}
const Vector<GeometryComponentType> types_in_geometry = geometry_set.gather_component_types(
true, true);
for (const GeometryComponentType type : types_in_geometry) {
if (type == GEO_COMPONENT_TYPE_INSTANCES) {
continue;
}
if (supported_types.contains(type)) {
continue;
}
std::string message = TIP_("Input geometry has unsupported type: ");
switch (type) {
case GEO_COMPONENT_TYPE_MESH: {
message += TIP_("Mesh");
break;
}
case GEO_COMPONENT_TYPE_POINT_CLOUD: {
message += TIP_("Point Cloud");
break;
}
case GEO_COMPONENT_TYPE_INSTANCES: {
BLI_assert_unreachable();
break;
}
case GEO_COMPONENT_TYPE_VOLUME: {
message += CTX_TIP_(BLT_I18NCONTEXT_ID_ID, "Volume");
break;
}
case GEO_COMPONENT_TYPE_CURVE: {
message += TIP_("Curve");
break;
}
case GEO_COMPONENT_TYPE_EDIT: {
continue;
}
}
this->error_message_add(NodeWarningType::Info, std::move(message));
}
}
void GeoNodeExecParams::check_output_geometry_set(const GeometrySet &geometry_set) const
{
UNUSED_VARS_NDEBUG(geometry_set);
#ifdef DEBUG
if (const bke::CurvesEditHints *curve_edit_hints =
geometry_set.get_curve_edit_hints_for_read()) {
/* If this is not valid, it's likely that the number of stored deformed points does not match
* the number of points in the original data. */
BLI_assert(curve_edit_hints->is_valid());
}
#endif
}
const bNodeSocket *GeoNodeExecParams::find_available_socket(const StringRef name) const
{
for (const bNodeSocket *socket : node_.input_sockets()) {
if (socket->is_available() && socket->name == name) {
return socket;
}
}
return nullptr;
}
void GeoNodeExecParams::set_default_remaining_outputs()
{
params_.set_default_remaining_outputs();
}
void GeoNodeExecParams::check_input_access(StringRef identifier,
const CPPType *requested_type) const
{
const bNodeSocket *found_socket = nullptr;
for (const bNodeSocket *socket : node_.input_sockets()) {
if (socket->identifier == identifier) {
found_socket = socket;
break;
}
}
if (found_socket == nullptr) {
std::cout << "Did not find an input socket with the identifier '" << identifier << "'.\n";
std::cout << "Possible identifiers are: ";
for (const bNodeSocket *socket : node_.input_sockets()) {
if (socket->is_available()) {
std::cout << "'" << socket->identifier << "', ";
}
}
std::cout << "\n";
BLI_assert_unreachable();
}
else if (found_socket->flag & SOCK_UNAVAIL) {
std::cout << "The socket corresponding to the identifier '" << identifier
<< "' is disabled.\n";
BLI_assert_unreachable();
}
else if (requested_type != nullptr && (found_socket->flag & SOCK_MULTI_INPUT) == 0) {
const CPPType &expected_type = *found_socket->typeinfo->geometry_nodes_cpp_type;
if (*requested_type != expected_type) {
std::cout << "The requested type '" << requested_type->name() << "' is incorrect. Expected '"
<< expected_type.name() << "'.\n";
BLI_assert_unreachable();
}
}
}
void GeoNodeExecParams::check_output_access(StringRef identifier, const CPPType &value_type) const
{
const bNodeSocket *found_socket = nullptr;
for (const bNodeSocket *socket : node_.output_sockets()) {
if (socket->identifier == identifier) {
found_socket = socket;
break;
}
}
if (found_socket == nullptr) {
std::cout << "Did not find an output socket with the identifier '" << identifier << "'.\n";
std::cout << "Possible identifiers are: ";
for (const bNodeSocket *socket : node_.output_sockets()) {
if (socket->is_available()) {
std::cout << "'" << socket->identifier << "', ";
}
}
std::cout << "\n";
BLI_assert_unreachable();
}
else if (found_socket->flag & SOCK_UNAVAIL) {
std::cout << "The socket corresponding to the identifier '" << identifier
<< "' is disabled.\n";
BLI_assert_unreachable();
}
else if (params_.output_was_set(this->get_output_index(identifier))) {
std::cout << "The identifier '" << identifier << "' has been set already.\n";
BLI_assert_unreachable();
}
else {
const CPPType &expected_type = *found_socket->typeinfo->geometry_nodes_cpp_type;
if (value_type != expected_type) {
std::cout << "The value type '" << value_type.name() << "' is incorrect. Expected '"
<< expected_type.name() << "'.\n";
BLI_assert_unreachable();
}
}
}
} // namespace blender::nodes
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