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test/source/blender/nodes/intern/node_declaration.cc
Jacques Lucke 38813a7441 Nodes: unify static and dynamic declarations 
This helps solving the problem encountered in #113553. The problem is that we
currently can't support link-drag-search for nodes which have a dynamic declaration.

With this patch, there is only a single `declare` function per node type, instead of
the separate `declare` and `declare_dynamic` functions. The new `declare` function
has access to the node and tree. However, both are allowed to be null. The final
node declaration has a flag for whether it depends on the node context or not.

Nodes that previously had a dynamic declaration should now create as much of
the declaration as possible that does not depend on the node. This allows code
like for link-drag-search to take those sockets into account even if the other
sockets are dynamic.

For node declarations that have dynamic types (e.g. Switch node), we can also
add extra information to the static node declaration, like the identifier of the socket
with the dynamic type. This is not part of this patch though.

I can think of two main alternatives to the approach implemented here:
* Define two separate functions for dynamic nodes. One that creates the "static
  declaration" without node context, and on that creates the actual declaration with
  node context.
* Have a single declare function that generates "build instructions" for the actual
  node declaration. So instead of building the final declaration directly, one can for
  example add a socket whose type depends on a specific rna path in the node.
  The actual node declaration is then automatically generated based on the build
  instructions. This becomes quite a bit more tricky with dynamic amounts of sockets
  and introduces another indirection between declarations and what sockets the node
  actually has.

I found the approach implemented in this patch to lead to the least amount of
boilerplate (doesn't require a seperate "build instructions" data structure) and code
duplication (socket properties are still only defined in one place). At the same time,
it offers more flexibility to how nodes can be dynamic.

Pull Request: https://projects.blender.org/blender/blender/pulls/113742
2023-10-15 20:28:23 +02:00

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/* SPDX-FileCopyrightText: 2023 Blender Authors
*
* SPDX-License-Identifier: GPL-2.0-or-later */
#include "NOD_node_declaration.hh"
#include "NOD_socket_declarations.hh"
#include "NOD_socket_declarations_geometry.hh"
#include "BLI_stack.hh"
#include "BLI_utildefines.h"
#include "BKE_geometry_fields.hh"
#include "BKE_node.hh"
#include "BKE_node_runtime.hh"
namespace blender::nodes {
static void reset_declaration(NodeDeclaration &declaration)
{
std::destroy_at(&declaration);
new (&declaration) NodeDeclaration();
}
void build_node_declaration(const bNodeType &typeinfo,
NodeDeclaration &r_declaration,
const bNodeTree *ntree,
const bNode *node)
{
reset_declaration(r_declaration);
NodeDeclarationBuilder node_decl_builder{r_declaration, ntree, node};
typeinfo.declare(node_decl_builder);
node_decl_builder.finalize();
}
void NodeDeclarationBuilder::finalize()
{
if (is_function_node_) {
for (std::unique_ptr<BaseSocketDeclarationBuilder> &socket_builder : socket_builders_) {
if (SocketDeclaration *socket_decl = socket_builder->decl_in_base_) {
if (socket_decl->input_field_type != InputSocketFieldType::Implicit) {
socket_decl->input_field_type = InputSocketFieldType::IsSupported;
}
}
}
for (std::unique_ptr<BaseSocketDeclarationBuilder> &socket_builder : socket_builders_) {
if (SocketDeclaration *socket_decl = socket_builder->decl_out_base_) {
socket_decl->output_field_dependency = OutputFieldDependency::ForDependentField();
socket_builder->reference_pass_all_ = true;
}
}
}
Vector<int> geometry_inputs;
for (const int i : declaration_.inputs.index_range()) {
if (dynamic_cast<decl::Geometry *>(declaration_.inputs[i])) {
geometry_inputs.append(i);
}
}
Vector<int> geometry_outputs;
for (const int i : declaration_.outputs.index_range()) {
if (dynamic_cast<decl::Geometry *>(declaration_.outputs[i])) {
geometry_outputs.append(i);
}
}
for (std::unique_ptr<BaseSocketDeclarationBuilder> &socket_builder : socket_builders_) {
if (!socket_builder->decl_in_base_) {
continue;
}
if (socket_builder->field_on_all_) {
aal::RelationsInNode &relations = this->get_anonymous_attribute_relations();
const int field_input = socket_builder->index_in_;
for (const int geometry_input : geometry_inputs) {
relations.eval_relations.append({field_input, geometry_input});
}
}
}
for (std::unique_ptr<BaseSocketDeclarationBuilder> &socket_builder : socket_builders_) {
if (!socket_builder->decl_out_base_) {
continue;
}
if (socket_builder->field_on_all_) {
aal::RelationsInNode &relations = this->get_anonymous_attribute_relations();
const int field_output = socket_builder->index_out_;
for (const int geometry_output : geometry_outputs) {
relations.available_relations.append({field_output, geometry_output});
}
}
if (socket_builder->reference_pass_all_) {
aal::RelationsInNode &relations = this->get_anonymous_attribute_relations();
const int field_output = socket_builder->index_out_;
for (const int input_i : declaration_.inputs.index_range()) {
SocketDeclaration &input_socket_decl = *declaration_.inputs[input_i];
if (input_socket_decl.input_field_type != InputSocketFieldType::None) {
relations.reference_relations.append({input_i, field_output});
}
}
}
if (socket_builder->propagate_from_all_) {
aal::RelationsInNode &relations = this->get_anonymous_attribute_relations();
const int geometry_output = socket_builder->index_out_;
for (const int geometry_input : geometry_inputs) {
relations.propagate_relations.append({geometry_input, geometry_output});
}
}
}
BLI_assert(declaration_.is_valid());
}
NodeDeclarationBuilder::NodeDeclarationBuilder(NodeDeclaration &declaration,
const bNodeTree *ntree,
const bNode *node)
: declaration_(declaration), ntree_(ntree), node_(node)
{
}
void NodeDeclarationBuilder::use_custom_socket_order(bool enable)
{
declaration_.use_custom_socket_order = enable;
}
Span<SocketDeclaration *> NodeDeclaration::sockets(eNodeSocketInOut in_out) const
{
if (in_out == SOCK_IN) {
return inputs;
}
return outputs;
}
void NodeDeclarationBuilder::set_active_panel_builder(const PanelDeclarationBuilder *panel_builder)
{
if (panel_builders_.is_empty()) {
BLI_assert(panel_builder == nullptr);
return;
}
BLI_assert(!panel_builder || !panel_builder->is_complete_);
PanelDeclarationBuilder *last_panel_builder = panel_builders_.last().get();
if (last_panel_builder != panel_builder) {
last_panel_builder->is_complete_ = true;
}
}
namespace anonymous_attribute_lifetime {
bool operator==(const RelationsInNode &a, const RelationsInNode &b)
{
return a.propagate_relations == b.propagate_relations &&
a.reference_relations == b.reference_relations && a.eval_relations == b.eval_relations &&
a.available_relations == b.available_relations &&
a.available_on_none == b.available_on_none;
}
bool operator!=(const RelationsInNode &a, const RelationsInNode &b)
{
return !(a == b);
}
std::ostream &operator<<(std::ostream &stream, const RelationsInNode &relations)
{
stream << "Propagate Relations: " << relations.propagate_relations.size() << "\n";
for (const PropagateRelation &relation : relations.propagate_relations) {
stream << " " << relation.from_geometry_input << " -> " << relation.to_geometry_output
<< "\n";
}
stream << "Reference Relations: " << relations.reference_relations.size() << "\n";
for (const ReferenceRelation &relation : relations.reference_relations) {
stream << " " << relation.from_field_input << " -> " << relation.to_field_output << "\n";
}
stream << "Eval Relations: " << relations.eval_relations.size() << "\n";
for (const EvalRelation &relation : relations.eval_relations) {
stream << " eval " << relation.field_input << " on " << relation.geometry_input << "\n";
}
stream << "Available Relations: " << relations.available_relations.size() << "\n";
for (const AvailableRelation &relation : relations.available_relations) {
stream << " " << relation.field_output << " available on " << relation.geometry_output
<< "\n";
}
stream << "Available on None: " << relations.available_on_none.size() << "\n";
for (const int i : relations.available_on_none) {
stream << " output " << i << " available on none\n";
}
return stream;
}
} // namespace anonymous_attribute_lifetime
bool NodeDeclaration::is_valid() const
{
if (!this->use_custom_socket_order) {
/* Skip validation for conventional socket layouts. */
return true;
}
/* Validation state for the interface root items as well as any panel content. */
struct ValidationState {
/* Remaining number of items expected in a panel */
int remaining_items = 0;
/* Sockets first, followed by panels. */
NodeTreeInterfaceItemType item_type = NODE_INTERFACE_SOCKET;
/* Output sockets first, followed by input sockets. */
eNodeSocketInOut socket_in_out = SOCK_OUT;
};
Stack<ValidationState> panel_states;
panel_states.push({});
for (const ItemDeclarationPtr &item_decl : items) {
BLI_assert(panel_states.size() >= 1);
ValidationState &state = panel_states.peek();
if (const SocketDeclaration *socket_decl = dynamic_cast<const SocketDeclaration *>(
item_decl.get()))
{
if (state.item_type != NODE_INTERFACE_SOCKET) {
std::cout << "Socket added after panel" << std::endl;
return false;
}
/* Check for consistent outputs.., inputs.. blocks. */
if (state.socket_in_out == SOCK_OUT && socket_decl->in_out == SOCK_IN) {
/* Start of input sockets. */
state.socket_in_out = SOCK_IN;
}
if (socket_decl->in_out != state.socket_in_out) {
std::cout << "Output socket added after input socket" << std::endl;
return false;
}
/* Item counting for the panels, but ignore for root items. */
if (panel_states.size() > 1) {
if (state.remaining_items <= 0) {
std::cout << "More sockets than expected in panel" << std::endl;
return false;
}
--state.remaining_items;
/* Panel closed after last item is added. */
if (state.remaining_items == 0) {
panel_states.pop();
}
}
}
else if (const PanelDeclaration *panel_decl = dynamic_cast<const PanelDeclaration *>(
item_decl.get()))
{
if (state.item_type == NODE_INTERFACE_SOCKET) {
/* Start of panels section */
state.item_type = NODE_INTERFACE_PANEL;
}
BLI_assert(state.item_type == NODE_INTERFACE_PANEL);
if (panel_decl->num_child_decls > 0) {
/* New panel started. */
panel_states.push({panel_decl->num_child_decls});
}
}
else {
BLI_assert_unreachable();
return false;
}
}
/* All panels complete? */
if (panel_states.size() != 1) {
std::cout << "Incomplete last panel" << std::endl;
return false;
}
return true;
}
bool NodeDeclaration::matches(const bNode &node) const
{
const bNodeSocket *current_input = static_cast<bNodeSocket *>(node.inputs.first);
const bNodeSocket *current_output = static_cast<bNodeSocket *>(node.outputs.first);
const bNodePanelState *current_panel = node.panel_states_array;
for (const ItemDeclarationPtr &item_decl : items) {
if (const SocketDeclaration *socket_decl = dynamic_cast<const SocketDeclaration *>(
item_decl.get()))
{
switch (socket_decl->in_out) {
case SOCK_IN:
if (current_input == nullptr || !socket_decl->matches(*current_input)) {
return false;
}
current_input = current_input->next;
break;
case SOCK_OUT:
if (current_output == nullptr || !socket_decl->matches(*current_output)) {
return false;
}
current_output = current_output->next;
break;
}
}
else if (const PanelDeclaration *panel_decl = dynamic_cast<const PanelDeclaration *>(
item_decl.get()))
{
if (!node.panel_states().contains_ptr(current_panel) || !panel_decl->matches(*current_panel))
{
return false;
}
++current_panel;
}
else {
/* Unknown item type. */
BLI_assert_unreachable();
}
}
/* If items are left over, some were removed from the declaration. */
if (current_input == nullptr || current_output == nullptr ||
!node.panel_states().contains_ptr(current_panel))
{
return false;
}
return true;
}
bNodeSocket &SocketDeclaration::update_or_build(bNodeTree &ntree,
bNode &node,
bNodeSocket &socket) const
{
/* By default just rebuild. */
BLI_assert(socket.in_out == this->in_out);
UNUSED_VARS_NDEBUG(socket);
return this->build(ntree, node);
}
void SocketDeclaration::set_common_flags(bNodeSocket &socket) const
{
SET_FLAG_FROM_TEST(socket.flag, compact, SOCK_COMPACT);
SET_FLAG_FROM_TEST(socket.flag, hide_value, SOCK_HIDE_VALUE);
SET_FLAG_FROM_TEST(socket.flag, hide_label, SOCK_HIDE_LABEL);
SET_FLAG_FROM_TEST(socket.flag, is_multi_input, SOCK_MULTI_INPUT);
SET_FLAG_FROM_TEST(socket.flag, no_mute_links, SOCK_NO_INTERNAL_LINK);
SET_FLAG_FROM_TEST(socket.flag, is_unavailable, SOCK_UNAVAIL);
}
bool SocketDeclaration::matches_common_data(const bNodeSocket &socket) const
{
if (socket.name != this->name) {
return false;
}
if (socket.identifier != this->identifier) {
return false;
}
if (((socket.flag & SOCK_COMPACT) != 0) != this->compact) {
return false;
}
if (((socket.flag & SOCK_HIDE_VALUE) != 0) != this->hide_value) {
return false;
}
if (((socket.flag & SOCK_HIDE_LABEL) != 0) != this->hide_label) {
return false;
}
if (((socket.flag & SOCK_MULTI_INPUT) != 0) != this->is_multi_input) {
return false;
}
if (((socket.flag & SOCK_NO_INTERNAL_LINK) != 0) != this->no_mute_links) {
return false;
}
if (((socket.flag & SOCK_UNAVAIL) != 0) != this->is_unavailable) {
return false;
}
return true;
}
PanelDeclarationBuilder &NodeDeclarationBuilder::add_panel(StringRef name, int identifier)
{
std::unique_ptr<PanelDeclaration> panel_decl = std::make_unique<PanelDeclaration>();
std::unique_ptr<PanelDeclarationBuilder> panel_decl_builder =
std::make_unique<PanelDeclarationBuilder>();
panel_decl_builder->decl_ = &*panel_decl;
panel_decl_builder->node_decl_builder_ = this;
if (identifier >= 0) {
panel_decl->identifier = identifier;
}
else {
/* Use index as identifier. */
panel_decl->identifier = declaration_.items.size();
}
panel_decl->name = name;
declaration_.items.append(std::move(panel_decl));
PanelDeclarationBuilder &builder_ref = *panel_decl_builder;
panel_builders_.append(std::move(panel_decl_builder));
set_active_panel_builder(&builder_ref);
return builder_ref;
}
void PanelDeclaration::build(bNodePanelState &panel) const
{
panel = {0};
panel.identifier = this->identifier;
SET_FLAG_FROM_TEST(panel.flag, this->default_collapsed, NODE_PANEL_COLLAPSED);
}
bool PanelDeclaration::matches(const bNodePanelState &panel) const
{
return panel.identifier == this->identifier;
}
void PanelDeclaration::update_or_build(const bNodePanelState &old_panel,
bNodePanelState &new_panel) const
{
build(new_panel);
/* Copy existing state to the new panel */
SET_FLAG_FROM_TEST(new_panel.flag, old_panel.is_collapsed(), NODE_PANEL_COLLAPSED);
}
std::unique_ptr<SocketDeclaration> make_declaration_for_socket_type(
const eNodeSocketDatatype socket_type)
{
switch (socket_type) {
case SOCK_FLOAT:
return std::make_unique<decl::Float>();
case SOCK_VECTOR:
return std::make_unique<decl::Vector>();
case SOCK_RGBA:
return std::make_unique<decl::Color>();
case SOCK_BOOLEAN:
return std::make_unique<decl::Bool>();
case SOCK_ROTATION:
return std::make_unique<decl::Rotation>();
case SOCK_INT:
return std::make_unique<decl::Int>();
case SOCK_STRING:
return std::make_unique<decl::String>();
case SOCK_GEOMETRY:
return std::make_unique<decl::Geometry>();
case SOCK_OBJECT:
return std::make_unique<decl::Object>();
case SOCK_IMAGE:
return std::make_unique<decl::Image>();
case SOCK_COLLECTION:
return std::make_unique<decl::Collection>();
case SOCK_MATERIAL:
return std::make_unique<decl::Material>();
default:
return {};
}
}
BaseSocketDeclarationBuilder &NodeDeclarationBuilder::add_input(
const eNodeSocketDatatype socket_type, const StringRef name, const StringRef identifier)
{
switch (socket_type) {
case SOCK_FLOAT:
return this->add_input<decl::Float>(name, identifier);
case SOCK_VECTOR:
return this->add_input<decl::Vector>(name, identifier);
case SOCK_RGBA:
return this->add_input<decl::Color>(name, identifier);
case SOCK_BOOLEAN:
return this->add_input<decl::Bool>(name, identifier);
case SOCK_ROTATION:
return this->add_input<decl::Rotation>(name, identifier);
case SOCK_INT:
return this->add_input<decl::Int>(name, identifier);
case SOCK_STRING:
return this->add_input<decl::String>(name, identifier);
case SOCK_GEOMETRY:
return this->add_input<decl::Geometry>(name, identifier);
case SOCK_OBJECT:
return this->add_input<decl::Object>(name, identifier);
case SOCK_IMAGE:
return this->add_input<decl::Image>(name, identifier);
case SOCK_COLLECTION:
return this->add_input<decl::Collection>(name, identifier);
case SOCK_MATERIAL:
return this->add_input<decl::Material>(name, identifier);
default:
BLI_assert_unreachable();
return this->add_input<decl::Float>("", "");
}
}
BaseSocketDeclarationBuilder &NodeDeclarationBuilder::add_output(
const eNodeSocketDatatype socket_type, const StringRef name, const StringRef identifier)
{
switch (socket_type) {
case SOCK_FLOAT:
return this->add_output<decl::Float>(name, identifier);
case SOCK_VECTOR:
return this->add_output<decl::Vector>(name, identifier);
case SOCK_RGBA:
return this->add_output<decl::Color>(name, identifier);
case SOCK_BOOLEAN:
return this->add_output<decl::Bool>(name, identifier);
case SOCK_ROTATION:
return this->add_output<decl::Rotation>(name, identifier);
case SOCK_INT:
return this->add_output<decl::Int>(name, identifier);
case SOCK_STRING:
return this->add_output<decl::String>(name, identifier);
case SOCK_GEOMETRY:
return this->add_output<decl::Geometry>(name, identifier);
case SOCK_OBJECT:
return this->add_output<decl::Object>(name, identifier);
case SOCK_IMAGE:
return this->add_output<decl::Image>(name, identifier);
case SOCK_COLLECTION:
return this->add_output<decl::Collection>(name, identifier);
case SOCK_MATERIAL:
return this->add_output<decl::Material>(name, identifier);
default:
BLI_assert_unreachable();
return this->add_output<decl::Float>("", "");
}
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::supports_field()
{
if (decl_in_base_) {
decl_in_base_->input_field_type = InputSocketFieldType::IsSupported;
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::dependent_field(
Vector<int> input_dependencies)
{
this->reference_pass(input_dependencies);
if (decl_out_base_) {
decl_out_base_->output_field_dependency = OutputFieldDependency::ForPartiallyDependentField(
std::move(input_dependencies));
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::hide_label(bool value)
{
if (decl_in_base_) {
decl_in_base_->hide_label = value;
}
if (decl_out_base_) {
decl_out_base_->hide_label = value;
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::hide_value(bool value)
{
if (decl_in_base_) {
decl_in_base_->hide_value = value;
}
if (decl_out_base_) {
decl_out_base_->hide_value = value;
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::multi_input(bool value)
{
if (decl_in_base_) {
decl_in_base_->is_multi_input = value;
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::reference_pass(
const Span<int> input_indices)
{
aal::RelationsInNode &relations = node_decl_builder_->get_anonymous_attribute_relations();
for (const int from_input : input_indices) {
aal::ReferenceRelation relation;
relation.from_field_input = from_input;
relation.to_field_output = index_out_;
relations.reference_relations.append(relation);
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::field_on(const Span<int> indices)
{
aal::RelationsInNode &relations = node_decl_builder_->get_anonymous_attribute_relations();
if (decl_in_base_) {
this->supports_field();
for (const int input_index : indices) {
aal::EvalRelation relation;
relation.field_input = index_in_;
relation.geometry_input = input_index;
relations.eval_relations.append(relation);
}
}
if (decl_out_base_) {
this->field_source();
for (const int output_index : indices) {
aal::AvailableRelation relation;
relation.field_output = index_out_;
relation.geometry_output = output_index;
relations.available_relations.append(relation);
}
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::short_label(std::string value)
{
if (decl_in_base_) {
decl_in_base_->description = std::move(value);
}
if (decl_out_base_) {
decl_out_base_->description = std::move(value);
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::description(std::string value)
{
if (decl_in_base_) {
decl_in_base_->description = std::move(value);
}
if (decl_out_base_) {
decl_out_base_->description = std::move(value);
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::translation_context(std::string value)
{
if (decl_in_base_) {
decl_in_base_->translation_context = value;
}
if (decl_out_base_) {
decl_out_base_->translation_context = std::move(value);
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::no_muted_links(bool value)
{
if (decl_in_base_) {
decl_in_base_->no_mute_links = value;
}
if (decl_out_base_) {
decl_out_base_->no_mute_links = value;
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::unavailable(bool value)
{
if (decl_in_base_) {
decl_in_base_->is_unavailable = value;
}
if (decl_out_base_) {
decl_out_base_->is_unavailable = value;
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::is_attribute_name(bool value)
{
if (decl_in_base_) {
decl_in_base_->is_attribute_name = value;
}
if (decl_out_base_) {
decl_out_base_->is_attribute_name = value;
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::is_default_link_socket(bool value)
{
if (decl_in_base_) {
decl_in_base_->is_default_link_socket = value;
}
if (decl_out_base_) {
decl_out_base_->is_default_link_socket = value;
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::field_on_all()
{
if (decl_in_base_) {
this->supports_field();
}
if (decl_out_base_) {
this->field_source();
}
field_on_all_ = true;
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::field_source()
{
if (decl_out_base_) {
decl_out_base_->output_field_dependency = OutputFieldDependency::ForFieldSource();
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::implicit_field(ImplicitInputValueFn fn)
{
this->hide_value();
if (decl_in_base_) {
decl_in_base_->input_field_type = InputSocketFieldType::Implicit;
decl_in_base_->implicit_input_fn = std::make_unique<ImplicitInputValueFn>(std::move(fn));
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::implicit_field_on_all(
ImplicitInputValueFn fn)
{
this->implicit_field(fn);
field_on_all_ = true;
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::implicit_field_on(
ImplicitInputValueFn fn, const Span<int> input_indices)
{
this->field_on(input_indices);
this->implicit_field(fn);
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::dependent_field()
{
if (decl_out_base_) {
decl_out_base_->output_field_dependency = OutputFieldDependency::ForDependentField();
}
this->reference_pass_all();
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::field_source_reference_all()
{
this->field_source();
this->reference_pass_all();
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::reference_pass_all()
{
reference_pass_all_ = true;
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::propagate_all()
{
propagate_from_all_ = true;
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::compositor_realization_options(
CompositorInputRealizationOptions value)
{
if (decl_in_base_) {
decl_in_base_->compositor_realization_options_ = value;
}
if (decl_out_base_) {
decl_out_base_->compositor_realization_options_ = value;
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::compositor_domain_priority(
int priority)
{
if (decl_in_base_) {
decl_in_base_->compositor_domain_priority_ = priority;
}
if (decl_out_base_) {
decl_out_base_->compositor_domain_priority_ = priority;
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::compositor_expects_single_value(
bool value)
{
if (decl_in_base_) {
decl_in_base_->compositor_expects_single_value_ = value;
}
if (decl_out_base_) {
decl_out_base_->compositor_expects_single_value_ = value;
}
return *this;
}
BaseSocketDeclarationBuilder &BaseSocketDeclarationBuilder::make_available(
std::function<void(bNode &)> fn)
{
if (decl_in_base_) {
decl_in_base_->make_available_fn_ = std::move(fn);
}
if (decl_out_base_) {
decl_out_base_->make_available_fn_ = std::move(fn);
}
return *this;
}
OutputFieldDependency OutputFieldDependency::ForFieldSource()
{
OutputFieldDependency field_dependency;
field_dependency.type_ = OutputSocketFieldType::FieldSource;
return field_dependency;
}
OutputFieldDependency OutputFieldDependency::ForDataSource()
{
OutputFieldDependency field_dependency;
field_dependency.type_ = OutputSocketFieldType::None;
return field_dependency;
}
OutputFieldDependency OutputFieldDependency::ForDependentField()
{
OutputFieldDependency field_dependency;
field_dependency.type_ = OutputSocketFieldType::DependentField;
return field_dependency;
}
OutputFieldDependency OutputFieldDependency::ForPartiallyDependentField(Vector<int> indices)
{
OutputFieldDependency field_dependency;
if (indices.is_empty()) {
field_dependency.type_ = OutputSocketFieldType::None;
}
else {
field_dependency.type_ = OutputSocketFieldType::PartiallyDependent;
field_dependency.linked_input_indices_ = std::move(indices);
}
return field_dependency;
}
OutputSocketFieldType OutputFieldDependency::field_type() const
{
return type_;
}
Span<int> OutputFieldDependency::linked_input_indices() const
{
return linked_input_indices_;
}
bool operator==(const OutputFieldDependency &a, const OutputFieldDependency &b)
{
return a.type_ == b.type_ && a.linked_input_indices_ == b.linked_input_indices_;
}
bool operator!=(const OutputFieldDependency &a, const OutputFieldDependency &b)
{
return !(a == b);
}
bool operator==(const FieldInferencingInterface &a, const FieldInferencingInterface &b)
{
return a.inputs == b.inputs && a.outputs == b.outputs;
}
bool operator!=(const FieldInferencingInterface &a, const FieldInferencingInterface &b)
{
return !(a == b);
}
const CompositorInputRealizationOptions &SocketDeclaration::compositor_realization_options() const
{
return compositor_realization_options_;
}
int SocketDeclaration::compositor_domain_priority() const
{
return compositor_domain_priority_;
}
bool SocketDeclaration::compositor_expects_single_value() const
{
return compositor_expects_single_value_;
}
void SocketDeclaration::make_available(bNode &node) const
{
if (make_available_fn_) {
make_available_fn_(node);
}
}
PanelDeclarationBuilder &PanelDeclarationBuilder::description(std::string value)
{
decl_->description = std::move(value);
return *this;
}
PanelDeclarationBuilder &PanelDeclarationBuilder::default_closed(bool closed)
{
decl_->default_collapsed = closed;
return *this;
}
PanelDeclarationBuilder &PanelDeclarationBuilder::draw_buttons(PanelDrawButtonsFunction func)
{
decl_->draw_buttons = func;
return *this;
}
namespace implicit_field_inputs {
void position(const bNode & /*node*/, void *r_value)
{
new (r_value) fn::ValueOrField<float3>(bke::AttributeFieldInput::Create<float3>("position"));
}
void normal(const bNode & /*node*/, void *r_value)
{
new (r_value)
fn::ValueOrField<float3>(fn::Field<float3>(std::make_shared<bke::NormalFieldInput>()));
}
void index(const bNode & /*node*/, void *r_value)
{
new (r_value) fn::ValueOrField<int>(fn::Field<int>(std::make_shared<fn::IndexFieldInput>()));
}
void id_or_index(const bNode & /*node*/, void *r_value)
{
new (r_value)
fn::ValueOrField<int>(fn::Field<int>(std::make_shared<bke::IDAttributeFieldInput>()));
}
} // namespace implicit_field_inputs
} // namespace blender::nodes
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