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151a53110c3fe030cda2ade964bb37c19a77e4f3
test2/source/blender/depsgraph/intern/eval/deg_eval.cc
Sergey Sharybin a12a8a71bb Remove "All Rights Reserved" from Blender Foundation copyright code 
The goal is to solve confusion of the "All rights reserved" for licensing
code under an open-source license.

The phrase "All rights reserved" comes from a historical convention that
required this phrase for the copyright protection to apply. This convention
is no longer relevant.

However, even though the phrase has no meaning in establishing the copyright
it has not lost meaning in terms of licensing.

This change makes it so code under the Blender Foundation copyright does
not use "all rights reserved". This is also how the GPL license itself
states how to apply it to the source code:

    <one line to give the program's name and a brief idea of what it does.>
    Copyright (C) <year>  <name of author>

    This program is free software ...

This change does not change copyright notice in cases when the copyright
is dual (BF and an author), or just an author of the code. It also does
mot change copyright which is inherited from NaN Holding BV as it needs
some further investigation about what is the proper way to handle it.
2023-03-30 10:51:59 +02:00

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/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2013 Blender Foundation */
/** \file
* \ingroup depsgraph
*
* Evaluation engine entry-points for Depsgraph Engine.
*/
#include "intern/eval/deg_eval.h"
#include "PIL_time.h"
#include "BLI_compiler_attrs.h"
#include "BLI_function_ref.hh"
#include "BLI_gsqueue.h"
#include "BLI_task.h"
#include "BLI_utildefines.h"
#include "BKE_global.h"
#include "DNA_node_types.h"
#include "DNA_object_types.h"
#include "DNA_scene_types.h"
#include "DEG_depsgraph.h"
#include "DEG_depsgraph_query.h"
#ifdef WITH_PYTHON
# include "BPY_extern.h"
#endif
#include "atomic_ops.h"
#include "intern/depsgraph.h"
#include "intern/depsgraph_relation.h"
#include "intern/depsgraph_tag.h"
#include "intern/eval/deg_eval_copy_on_write.h"
#include "intern/eval/deg_eval_flush.h"
#include "intern/eval/deg_eval_stats.h"
#include "intern/eval/deg_eval_visibility.h"
#include "intern/node/deg_node.h"
#include "intern/node/deg_node_component.h"
#include "intern/node/deg_node_id.h"
#include "intern/node/deg_node_operation.h"
#include "intern/node/deg_node_time.h"
namespace blender::deg {
namespace {
struct DepsgraphEvalState;
void deg_task_run_func(TaskPool *pool, void *taskdata);
void schedule_children(DepsgraphEvalState *state,
OperationNode *node,
FunctionRef<void(OperationNode *node)> schedule_fn);
/* Denotes which part of dependency graph is being evaluated. */
enum class EvaluationStage {
/* Stage 1: Only Copy-on-Write operations are to be evaluated, prior to anything else.
* This allows other operations to access its dependencies when there is a dependency cycle
* involved. */
COPY_ON_WRITE,
/* Evaluate actual ID nodes visibility based on the current state of animation and drivers. */
DYNAMIC_VISIBILITY,
/* Threaded evaluation of all possible operations. */
THREADED_EVALUATION,
/* Workaround for areas which can not be evaluated in threads.
*
* For example, meta-balls, which are iterating over all bases and are requesting dupli-lists
* to see whether there are meta-balls inside. */
SINGLE_THREADED_WORKAROUND,
};
struct DepsgraphEvalState {
Depsgraph *graph;
bool do_stats;
EvaluationStage stage;
bool need_update_pending_parents = true;
bool need_single_thread_pass = false;
};
void evaluate_node(const DepsgraphEvalState *state, OperationNode *operation_node)
{
::Depsgraph *depsgraph = reinterpret_cast<::Depsgraph *>(state->graph);
/* Sanity checks. */
BLI_assert_msg(!operation_node->is_noop(), "NOOP nodes should not actually be scheduled");
/* Perform operation. */
if (state->do_stats) {
const double start_time = PIL_check_seconds_timer();
operation_node->evaluate(depsgraph);
operation_node->stats.current_time += PIL_check_seconds_timer() - start_time;
}
else {
operation_node->evaluate(depsgraph);
}
/* Clear the flag early on, allowing partial updates without re-evaluating the same node multiple
* times.
* This is a thread-safe modification as the node's flags are only read for a non-scheduled nodes
* and this node has been scheduled. */
operation_node->flag &= ~DEPSOP_FLAG_CLEAR_ON_EVAL;
}
void deg_task_run_func(TaskPool *pool, void *taskdata)
{
void *userdata_v = BLI_task_pool_user_data(pool);
DepsgraphEvalState *state = (DepsgraphEvalState *)userdata_v;
/* Evaluate node. */
OperationNode *operation_node = reinterpret_cast<OperationNode *>(taskdata);
evaluate_node(state, operation_node);
/* Schedule children. */
schedule_children(state, operation_node, [&](OperationNode *node) {
BLI_task_pool_push(pool, deg_task_run_func, node, false, nullptr);
});
}
bool check_operation_node_visible(const DepsgraphEvalState *state, OperationNode *op_node)
{
const ComponentNode *comp_node = op_node->owner;
/* Special case for copy on write component: it is to be always evaluated, to keep copied
* "database" in a consistent state. */
if (comp_node->type == NodeType::COPY_ON_WRITE) {
return true;
}
/* Special case for dynamic visibility pass: the actual visibility is not yet known, so limit to
* only operations which affects visibility. */
if (state->stage == EvaluationStage::DYNAMIC_VISIBILITY) {
return op_node->flag & OperationFlag::DEPSOP_FLAG_AFFECTS_VISIBILITY;
}
return comp_node->affects_visible_id;
}
void calculate_pending_parents_for_node(const DepsgraphEvalState *state, OperationNode *node)
{
/* Update counters, applies for both visible and invisible IDs. */
node->num_links_pending = 0;
node->scheduled = false;
/* Invisible IDs requires no pending operations. */
if (!check_operation_node_visible(state, node)) {
return;
}
/* No need to bother with anything if node is not tagged for update. */
if ((node->flag & DEPSOP_FLAG_NEEDS_UPDATE) == 0) {
return;
}
for (Relation *rel : node->inlinks) {
if (rel->from->type == NodeType::OPERATION && (rel->flag & RELATION_FLAG_CYCLIC) == 0) {
OperationNode *from = (OperationNode *)rel->from;
/* TODO(sergey): This is how old layer system was checking for the
* calculation, but how is it possible that visible object depends
* on an invisible? This is something what is prohibited after
* deg_graph_build_flush_layers(). */
if (!check_operation_node_visible(state, from)) {
continue;
}
/* No need to wait for operation which is up to date. */
if ((from->flag & DEPSOP_FLAG_NEEDS_UPDATE) == 0) {
continue;
}
++node->num_links_pending;
}
}
}
void calculate_pending_parents_if_needed(DepsgraphEvalState *state)
{
if (!state->need_update_pending_parents) {
return;
}
for (OperationNode *node : state->graph->operations) {
calculate_pending_parents_for_node(state, node);
}
state->need_update_pending_parents = false;
}
void initialize_execution(DepsgraphEvalState *state, Depsgraph *graph)
{
/* Clear tags and other things which needs to be clear. */
if (state->do_stats) {
for (OperationNode *node : graph->operations) {
node->stats.reset_current();
}
}
}
bool is_metaball_object_operation(const OperationNode *operation_node)
{
const ComponentNode *component_node = operation_node->owner;
const IDNode *id_node = component_node->owner;
if (GS(id_node->id_cow->name) != ID_OB) {
return false;
}
const Object *object = reinterpret_cast<const Object *>(id_node->id_cow);
return object->type == OB_MBALL;
}
bool need_evaluate_operation_at_stage(DepsgraphEvalState *state,
const OperationNode *operation_node)
{
const ComponentNode *component_node = operation_node->owner;
switch (state->stage) {
case EvaluationStage::COPY_ON_WRITE:
return (component_node->type == NodeType::COPY_ON_WRITE);
case EvaluationStage::DYNAMIC_VISIBILITY:
return operation_node->flag & OperationFlag::DEPSOP_FLAG_AFFECTS_VISIBILITY;
case EvaluationStage::THREADED_EVALUATION:
if (is_metaball_object_operation(operation_node)) {
state->need_single_thread_pass = true;
return false;
}
return true;
case EvaluationStage::SINGLE_THREADED_WORKAROUND:
return true;
}
BLI_assert_msg(0, "Unhandled evaluation stage, should never happen.");
return false;
}
/* Schedule a node if it needs evaluation.
* dec_parents: Decrement pending parents count, true when child nodes are
* scheduled after a task has been completed.
*/
void schedule_node(DepsgraphEvalState *state,
OperationNode *node,
bool dec_parents,
const FunctionRef<void(OperationNode *node)> schedule_fn)
{
/* No need to schedule nodes of invisible ID. */
if (!check_operation_node_visible(state, node)) {
return;
}
/* No need to schedule operations which are not tagged for update, they are
* considered to be up to date. */
if ((node->flag & DEPSOP_FLAG_NEEDS_UPDATE) == 0) {
return;
}
/* TODO(sergey): This is not strictly speaking safe to read
* num_links_pending. */
if (dec_parents) {
BLI_assert(node->num_links_pending > 0);
atomic_sub_and_fetch_uint32(&node->num_links_pending, 1);
}
/* Cal not schedule operation while its dependencies are not yet
* evaluated. */
if (node->num_links_pending != 0) {
return;
}
/* During the COW stage only schedule COW nodes. */
if (!need_evaluate_operation_at_stage(state, node)) {
return;
}
/* Actually schedule the node. */
bool is_scheduled = atomic_fetch_and_or_uint8((uint8_t *)&node->scheduled, uint8_t(true));
if (!is_scheduled) {
if (node->is_noop()) {
/* Clear flags to avoid affecting subsequent update propagation.
* For normal nodes these are cleared when it is evaluated. */
node->flag &= ~DEPSOP_FLAG_CLEAR_ON_EVAL;
/* skip NOOP node, schedule children right away */
schedule_children(state, node, schedule_fn);
}
else {
/* children are scheduled once this task is completed */
schedule_fn(node);
}
}
}
void schedule_graph(DepsgraphEvalState *state,
const FunctionRef<void(OperationNode *node)> schedule_fn)
{
for (OperationNode *node : state->graph->operations) {
schedule_node(state, node, false, schedule_fn);
}
}
void schedule_children(DepsgraphEvalState *state,
OperationNode *node,
const FunctionRef<void(OperationNode *node)> schedule_fn)
{
for (Relation *rel : node->outlinks) {
OperationNode *child = (OperationNode *)rel->to;
BLI_assert(child->type == NodeType::OPERATION);
if (child->scheduled) {
/* Happens when having cyclic dependencies. */
continue;
}
schedule_node(state, child, (rel->flag & RELATION_FLAG_CYCLIC) == 0, schedule_fn);
}
}
/* Evaluate given stage of the dependency graph evaluation using multiple threads.
*
* NOTE: Will assign the `state->stage` to the given stage. */
void evaluate_graph_threaded_stage(DepsgraphEvalState *state,
TaskPool *task_pool,
const EvaluationStage stage)
{
state->stage = stage;
calculate_pending_parents_if_needed(state);
schedule_graph(state, [&](OperationNode *node) {
BLI_task_pool_push(task_pool, deg_task_run_func, node, false, nullptr);
});
BLI_task_pool_work_and_wait(task_pool);
}
/* Evaluate remaining operations of the dependency graph in a single threaded manner. */
void evaluate_graph_single_threaded_if_needed(DepsgraphEvalState *state)
{
if (!state->need_single_thread_pass) {
return;
}
BLI_assert(!state->need_update_pending_parents);
state->stage = EvaluationStage::SINGLE_THREADED_WORKAROUND;
GSQueue *evaluation_queue = BLI_gsqueue_new(sizeof(OperationNode *));
auto schedule_node_to_queue = [&](OperationNode *node) {
BLI_gsqueue_push(evaluation_queue, &node);
};
schedule_graph(state, schedule_node_to_queue);
while (!BLI_gsqueue_is_empty(evaluation_queue)) {
OperationNode *operation_node;
BLI_gsqueue_pop(evaluation_queue, &operation_node);
evaluate_node(state, operation_node);
schedule_children(state, operation_node, schedule_node_to_queue);
}
BLI_gsqueue_free(evaluation_queue);
}
void depsgraph_ensure_view_layer(Depsgraph *graph)
{
/* We update copy-on-write scene in the following cases:
* - It was not expanded yet.
* - It was tagged for update of CoW component.
* This allows us to have proper view layer pointer. */
Scene *scene_cow = graph->scene_cow;
if (deg_copy_on_write_is_expanded(&scene_cow->id) &&
(scene_cow->id.recalc & ID_RECALC_COPY_ON_WRITE) == 0) {
return;
}
const IDNode *scene_id_node = graph->find_id_node(&graph->scene->id);
deg_update_copy_on_write_datablock(graph, scene_id_node);
}
TaskPool *deg_evaluate_task_pool_create(DepsgraphEvalState *state)
{
if (G.debug & G_DEBUG_DEPSGRAPH_NO_THREADS) {
return BLI_task_pool_create_no_threads(state);
}
return BLI_task_pool_create_suspended(state, TASK_PRIORITY_HIGH);
}
} // namespace
void deg_evaluate_on_refresh(Depsgraph *graph)
{
/* Nothing to update, early out. */
if (graph->entry_tags.is_empty()) {
return;
}
graph->debug.begin_graph_evaluation();
#ifdef WITH_PYTHON
/* Release the GIL so that Python drivers can be evaluated. See #91046. */
BPy_BEGIN_ALLOW_THREADS;
#endif
graph->is_evaluating = true;
depsgraph_ensure_view_layer(graph);
/* Set up evaluation state. */
DepsgraphEvalState state;
state.graph = graph;
state.do_stats = graph->debug.do_time_debug();
/* Prepare all nodes for evaluation. */
initialize_execution(&state, graph);
/* Evaluation happens in several incremental steps:
*
* - Start with the copy-on-write operations which never form dependency cycles. This will ensure
* that if a dependency graph has a cycle evaluation functions will always "see" valid expanded
* datablock. It might not be evaluated yet, but at least the datablock will be valid.
*
* - If there is potentially dynamically changing visibility in the graph update the actual
* nodes visibilities, so that actual heavy data evaluation can benefit from knowledge that
* something heavy is not currently visible.
*
* - Multi-threaded evaluation of all possible nodes.
* Certain operations (and their subtrees) could be ignored. For example, meta-balls are not
* safe from threading point of view, so the threaded evaluation will stop at the metaball
* operation node.
*
* - Single-threaded pass of all remaining operations. */
TaskPool *task_pool = deg_evaluate_task_pool_create(&state);
evaluate_graph_threaded_stage(&state, task_pool, EvaluationStage::COPY_ON_WRITE);
if (graph->has_animated_visibility || graph->need_update_nodes_visibility) {
/* Update pending parents including only the ones which are affecting operations which are
* affecting visibility. */
state.need_update_pending_parents = true;
evaluate_graph_threaded_stage(&state, task_pool, EvaluationStage::DYNAMIC_VISIBILITY);
deg_graph_flush_visibility_flags_if_needed(graph);
/* Update parents to an updated visibility and evaluation stage.
*
* Need to do it regardless of whether visibility is actually changed or not: current state of
* the pending parents are all zeroes because it was previously calculated for only visibility
* related nodes and those are fully evaluated by now. */
state.need_update_pending_parents = true;
}
evaluate_graph_threaded_stage(&state, task_pool, EvaluationStage::THREADED_EVALUATION);
BLI_task_pool_free(task_pool);
evaluate_graph_single_threaded_if_needed(&state);
/* Finalize statistics gathering. This is because we only gather single
* operation timing here, without aggregating anything to avoid any extra
* synchronization. */
if (state.do_stats) {
deg_eval_stats_aggregate(graph);
}
/* Clear any uncleared tags. */
deg_graph_clear_tags(graph);
graph->is_evaluating = false;
#ifdef WITH_PYTHON
BPy_END_ALLOW_THREADS;
#endif
graph->debug.end_graph_evaluation();
}
} // namespace blender::deg
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