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test2/source/blender/depsgraph/intern/depsgraph_query_foreach.cc
Hans Goudey 3630fd78d5 Cleanup: Depsgraph: Avoid transative includes and type aliases 
Instead of the monolothic `depsgraph_type.hh` header that includes
most types used in the despgraph, just add includes where they are
actually necessary. Also remove the `using` keywords for `std` types.
The lack of specificity isn't considered good practice nowadays.

Removing unnecessary transitive includes can help improve compile
times because the time spent parsing headers decreases. Using the
"include what you use" pattern makes futher improvements much
easier too, since it the path to further reduce transitive includes
becomes much clearer.

Pull Request: https://projects.blender.org/blender/blender/pulls/133749
2025-01-31 21:17:49 +01:00

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/* SPDX-FileCopyrightText: 2017 Blender Authors
*
* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup depsgraph
*
* Implementation of Querying and Filtering API's
*/
#include <deque>
#include "DEG_depsgraph.hh"
#include "DEG_depsgraph_query.hh"
#include "intern/depsgraph.hh"
#include "intern/depsgraph_relation.hh"
#include "intern/node/deg_node.hh"
#include "intern/node/deg_node_component.hh"
#include "intern/node/deg_node_id.hh"
#include "intern/node/deg_node_operation.hh"
namespace deg = blender::deg;
/* ************************ DEG TRAVERSAL ********************* */
namespace blender::deg {
namespace {
using TraversalQueue = std::deque<OperationNode *>;
using DEGForeachOperation = void (*)(OperationNode *, void *);
bool deg_foreach_needs_visit(const OperationNode *op_node, const int flags)
{
if (flags & DEG_FOREACH_COMPONENT_IGNORE_TRANSFORM_SOLVERS) {
if (op_node->opcode == OperationCode::RIGIDBODY_SIM) {
return false;
}
}
return true;
}
void deg_foreach_dependent_operation(const Depsgraph * /*graph*/,
const IDNode *target_id_node,
eDepsObjectComponentType source_component_type,
int flags,
DEGForeachOperation callback,
void *user_data)
{
if (target_id_node == nullptr) {
/* TODO(sergey): Shall we inform or assert here about attempt to start
* iterating over non-existing ID? */
return;
}
/* Start with scheduling all operations from ID node. */
TraversalQueue queue;
Set<OperationNode *> scheduled;
for (ComponentNode *comp_node : target_id_node->components.values()) {
if (comp_node->type == NodeType::VISIBILITY) {
/* Visibility component is only used internally. It is not to be reporting dependencies to
* the outer world. */
continue;
}
if (source_component_type != DEG_OB_COMP_ANY &&
nodeTypeToObjectComponent(comp_node->type) != source_component_type)
{
continue;
}
for (OperationNode *op_node : comp_node->operations) {
if (!deg_foreach_needs_visit(op_node, flags)) {
continue;
}
queue.push_back(op_node);
scheduled.add(op_node);
}
}
/* Process the queue. */
while (!queue.empty()) {
/* get next operation node to process. */
OperationNode *op_node = queue.front();
queue.pop_front();
for (;;) {
callback(op_node, user_data);
/* Schedule outgoing operation nodes. */
if (op_node->outlinks.size() == 1) {
OperationNode *to_node = (OperationNode *)op_node->outlinks[0]->to;
if (!scheduled.contains(to_node) && deg_foreach_needs_visit(to_node, flags)) {
scheduled.add_new(to_node);
op_node = to_node;
}
else {
break;
}
}
else {
for (Relation *rel : op_node->outlinks) {
OperationNode *to_node = (OperationNode *)rel->to;
if (!scheduled.contains(to_node) && deg_foreach_needs_visit(to_node, flags)) {
queue.push_front(to_node);
scheduled.add_new(to_node);
}
}
break;
}
}
}
}
struct ForeachIDComponentData {
DEGForeachIDComponentCallback callback;
IDNode *target_id_node;
Set<ComponentNode *> visited;
};
void deg_foreach_dependent_component_callback(OperationNode *op_node, void *user_data_v)
{
ForeachIDComponentData *user_data = reinterpret_cast<ForeachIDComponentData *>(user_data_v);
ComponentNode *comp_node = op_node->owner;
IDNode *id_node = comp_node->owner;
if (id_node != user_data->target_id_node && !user_data->visited.contains(comp_node)) {
user_data->callback(id_node->id_orig, nodeTypeToObjectComponent(comp_node->type));
user_data->visited.add_new(comp_node);
}
}
void deg_foreach_dependent_ID_component(const Depsgraph *graph,
const ID *id,
eDepsObjectComponentType source_component_type,
int flags,
DEGForeachIDComponentCallback callback)
{
ForeachIDComponentData data;
data.callback = callback;
data.target_id_node = graph->find_id_node(id);
deg_foreach_dependent_operation(graph,
data.target_id_node,
source_component_type,
flags,
deg_foreach_dependent_component_callback,
&data);
}
struct ForeachIDData {
DEGForeachIDCallback callback;
IDNode *target_id_node;
Set<IDNode *> visited;
};
void deg_foreach_dependent_ID_callback(OperationNode *op_node, void *user_data_v)
{
ForeachIDData *user_data = reinterpret_cast<ForeachIDData *>(user_data_v);
ComponentNode *comp_node = op_node->owner;
IDNode *id_node = comp_node->owner;
if (id_node != user_data->target_id_node && !user_data->visited.contains(id_node)) {
user_data->callback(id_node->id_orig);
user_data->visited.add_new(id_node);
}
}
void deg_foreach_dependent_ID(const Depsgraph *graph, const ID *id, DEGForeachIDCallback callback)
{
ForeachIDData data;
data.callback = callback;
data.target_id_node = graph->find_id_node(id);
deg_foreach_dependent_operation(
graph, data.target_id_node, DEG_OB_COMP_ANY, 0, deg_foreach_dependent_ID_callback, &data);
}
void deg_foreach_ancestor_ID(const Depsgraph *graph, const ID *id, DEGForeachIDCallback callback)
{
/* Start with getting ID node from the graph. */
IDNode *target_id_node = graph->find_id_node(id);
if (target_id_node == nullptr) {
/* TODO(sergey): Shall we inform or assert here about attempt to start
* iterating over non-existing ID? */
return;
}
/* Start with scheduling all operations from ID node. */
TraversalQueue queue;
Set<OperationNode *> scheduled;
for (ComponentNode *comp_node : target_id_node->components.values()) {
for (OperationNode *op_node : comp_node->operations) {
queue.push_back(op_node);
scheduled.add(op_node);
}
}
Set<IDNode *> visited;
visited.add_new(target_id_node);
/* Process the queue. */
while (!queue.empty()) {
/* get next operation node to process. */
OperationNode *op_node = queue.front();
queue.pop_front();
for (;;) {
/* Check whether we need to inform callee about corresponding ID node. */
ComponentNode *comp_node = op_node->owner;
IDNode *id_node = comp_node->owner;
if (!visited.contains(id_node)) {
/* TODO(sergey): Is it orig or evaluated? */
callback(id_node->id_orig);
visited.add_new(id_node);
}
/* Schedule incoming operation nodes. */
if (op_node->inlinks.size() == 1) {
Node *from = op_node->inlinks[0]->from;
if (from->get_class() == NodeClass::OPERATION) {
OperationNode *from_node = (OperationNode *)from;
if (scheduled.add(from_node)) {
op_node = from_node;
}
else {
break;
}
}
}
else {
for (Relation *rel : op_node->inlinks) {
Node *from = rel->from;
if (from->get_class() == NodeClass::OPERATION) {
OperationNode *from_node = (OperationNode *)from;
if (scheduled.add(from_node)) {
queue.push_front(from_node);
}
}
}
break;
}
}
}
}
void deg_foreach_id(const Depsgraph *depsgraph, DEGForeachIDCallback callback)
{
for (const IDNode *id_node : depsgraph->id_nodes) {
callback(id_node->id_orig);
}
}
} // namespace
} // namespace blender::deg
void DEG_foreach_dependent_ID(const Depsgraph *depsgraph,
const ID *id,
DEGForeachIDCallback callback)
{
deg::deg_foreach_dependent_ID((const deg::Depsgraph *)depsgraph, id, callback);
}
void DEG_foreach_dependent_ID_component(const Depsgraph *depsgraph,
const ID *id,
eDepsObjectComponentType source_component_type,
int flags,
DEGForeachIDComponentCallback callback)
{
deg::deg_foreach_dependent_ID_component(
(const deg::Depsgraph *)depsgraph, id, source_component_type, flags, callback);
}
void DEG_foreach_ancestor_ID(const Depsgraph *depsgraph,
const ID *id,
DEGForeachIDCallback callback)
{
deg::deg_foreach_ancestor_ID((const deg::Depsgraph *)depsgraph, id, callback);
}
void DEG_foreach_ID(const Depsgraph *depsgraph, DEGForeachIDCallback callback)
{
deg::deg_foreach_id((const deg::Depsgraph *)depsgraph, callback);
}
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