davidhaver-WIP-realize-depth #3

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David-Haver wants to merge 65 commits from David-Haver/blender-old:davidhaver-WIP-realize-depth into WIP-realize-depth

When changing the target branch, be careful to rebase the branch in your fork to match. See documentation.
5 changed files with 647 additions and 120 deletions

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@ -12,4 +12,7 @@ namespace blender::geometry {
bke::GeometrySet join_geometries(Span<bke::GeometrySet> geometries, bke::GeometrySet join_geometries(Span<bke::GeometrySet> geometries,
const bke::AnonymousAttributePropagationInfo &propagation_info); const bke::AnonymousAttributePropagationInfo &propagation_info);
} void join_attributes(Span<const bke::GeometryComponent *> src_components,
bke::GeometryComponent &r_result,
Span<StringRef> ignored_attributes = {});
} // namespace blender::geometry

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@ -8,6 +8,9 @@
namespace blender::geometry { namespace blender::geometry {
/**
* General options for realize_instances.
*/
struct RealizeInstancesOptions { struct RealizeInstancesOptions {
/** /**
* The default is to generate new ids for every element (when there was any id attribute in the * The default is to generate new ids for every element (when there was any id attribute in the
@ -25,6 +28,26 @@ struct RealizeInstancesOptions {
bke::AnonymousAttributePropagationInfo propagation_info; bke::AnonymousAttributePropagationInfo propagation_info;
}; };
/**
* Allow the user to choice which instances to realize and to what depth.
*/
struct VariedDepthOption {
/**
* Selection of top-level instances to realize.
*/
IndexMask selection;
/**
* Depth of realize instances for each selected top-level instance.
*/
VArray<int> depths;
/**
* Use this value to realize the instance completely
*/
static const int MAX_DEPTH = -1;
};
/** /**
* Join all instances into a single geometry component for each geometry type. For example, all * Join all instances into a single geometry component for each geometry type. For example, all
* mesh instances (including the already realized mesh) are joined into a single mesh. The output * mesh instances (including the already realized mesh) are joined into a single mesh. The output
@ -38,4 +61,20 @@ struct RealizeInstancesOptions {
bke::GeometrySet realize_instances(bke::GeometrySet geometry_set, bke::GeometrySet realize_instances(bke::GeometrySet geometry_set,
const RealizeInstancesOptions &options); const RealizeInstancesOptions &options);
/**
* Join all instances into a single geometry component for each geometry type. For example, all
* mesh instances (including the already realized mesh) are joined into a single mesh. The output
* geometry set does not contain any instances. If the input did not contain any instances, it is
* returned directly.
*
* The `id` attribute has special handling. If there is an id attribute on any component, the
* output will contain an `id` attribute as well. The output id is generated by mixing/hashing ids
* of instances and of the instanced geometry data.
*
* Will realize only the instances chosen by varied_depth_option to there chosen depth.
*/
bke::GeometrySet realize_instances(bke::GeometrySet geometry_set,
const RealizeInstancesOptions &options,
const VariedDepthOption &varied_depth_option);
} // namespace blender::geometry } // namespace blender::geometry

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@ -73,9 +73,9 @@ static void fill_new_attribute(const Span<const GeometryComponent *> src_compone
} }
} }
static void join_attributes(const Span<const GeometryComponent *> src_components, void join_attributes(const Span<const GeometryComponent *> src_components,
GeometryComponent &result, GeometryComponent &r_result,
const Span<StringRef> ignored_attributes = {}) const Span<StringRef> ignored_attributes)
{ {
const Map<AttributeIDRef, AttributeMetaData> info = get_final_attribute_info(src_components, const Map<AttributeIDRef, AttributeMetaData> info = get_final_attribute_info(src_components,
ignored_attributes); ignored_attributes);
@ -85,7 +85,7 @@ static void join_attributes(const Span<const GeometryComponent *> src_components
const AttributeMetaData &meta_data = item.value; const AttributeMetaData &meta_data = item.value;
bke::GSpanAttributeWriter write_attribute = bke::GSpanAttributeWriter write_attribute =
result.attributes_for_write()->lookup_or_add_for_write_only_span( r_result.attributes_for_write()->lookup_or_add_for_write_only_span(
attribute_id, meta_data.domain, meta_data.data_type); attribute_id, meta_data.domain, meta_data.data_type);
if (!write_attribute) { if (!write_attribute) {
continue; continue;
@ -97,7 +97,7 @@ static void join_attributes(const Span<const GeometryComponent *> src_components
} }
static void join_instances(const Span<const GeometryComponent *> src_components, static void join_instances(const Span<const GeometryComponent *> src_components,
GeometrySet &result) GeometrySet &r_result)
{ {
Array<int> offsets_data(src_components.size() + 1); Array<int> offsets_data(src_components.size() + 1);
for (const int i : src_components.index_range()) { for (const int i : src_components.index_range()) {
@ -127,8 +127,8 @@ static void join_instances(const Span<const GeometryComponent *> src_components,
array_utils::gather(handle_map.as_span(), src_handles, all_handles.slice(dst_range)); array_utils::gather(handle_map.as_span(), src_handles, all_handles.slice(dst_range));
} }
result.replace_instances(dst_instances.release()); r_result.replace_instances(dst_instances.release());
auto &dst_component = result.get_component_for_write<bke::InstancesComponent>(); auto &dst_component = r_result.get_component_for_write<bke::InstancesComponent>();
join_attributes(src_components, dst_component, {".reference_index"}); join_attributes(src_components, dst_component, {".reference_index"});
} }
@ -142,7 +142,7 @@ static void join_volumes(const Span<const GeometryComponent *> /*src_components*
static void join_component_type(const bke::GeometryComponent::Type component_type, static void join_component_type(const bke::GeometryComponent::Type component_type,
const Span<GeometrySet> src_geometry_sets, const Span<GeometrySet> src_geometry_sets,
const bke::AnonymousAttributePropagationInfo &propagation_info, const bke::AnonymousAttributePropagationInfo &propagation_info,
GeometrySet &result) GeometrySet &r_result)
{ {
Vector<const GeometryComponent *> components; Vector<const GeometryComponent *> components;
for (const GeometrySet &geometry_set : src_geometry_sets) { for (const GeometrySet &geometry_set : src_geometry_sets) {
@ -156,16 +156,16 @@ static void join_component_type(const bke::GeometryComponent::Type component_typ
return; return;
} }
if (components.size() == 1) { if (components.size() == 1) {
result.add(*components.first()); r_result.add(*components.first());
return; return;
} }
switch (component_type) { switch (component_type) {
case bke::GeometryComponent::Type::Instance: case bke::GeometryComponent::Type::Instance:
join_instances(components, result); join_instances(components, r_result);
return; return;
case bke::GeometryComponent::Type::Volume: case bke::GeometryComponent::Type::Volume:
join_volumes(components, result); join_volumes(components, r_result);
return; return;
default: default:
break; break;
@ -185,9 +185,10 @@ static void join_component_type(const bke::GeometryComponent::Type component_typ
options.keep_original_ids = true; options.keep_original_ids = true;
options.realize_instance_attributes = false; options.realize_instance_attributes = false;
options.propagation_info = propagation_info; options.propagation_info = propagation_info;
GeometrySet joined_components = realize_instances( GeometrySet joined_components = realize_instances(
GeometrySet::from_instances(instances.release()), options); GeometrySet::from_instances(instances.release()), options);
result.add(joined_components.get_component_for_write(component_type)); r_result.add(joined_components.get_component_for_write(component_type));
} }
GeometrySet join_geometries(const Span<GeometrySet> geometries, GeometrySet join_geometries(const Span<GeometrySet> geometries,

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@ -2,20 +2,14 @@
* *
* SPDX-License-Identifier: GPL-2.0-or-later */ * SPDX-License-Identifier: GPL-2.0-or-later */
#include "GEO_join_geometries.hh"
#include "GEO_realize_instances.hh" #include "GEO_realize_instances.hh"
#include "DNA_collection_types.h" #include "DNA_collection_types.h"
#include "DNA_layer_types.h"
#include "DNA_object_types.h"
#include "DNA_pointcloud_types.h"
#include "BLI_listbase.h" #include "BLI_array_utils.hh"
#include "BLI_math_matrix.hh"
#include "BLI_math_rotation.hh"
#include "BLI_noise.hh" #include "BLI_noise.hh"
#include "BLI_task.hh"
#include "BKE_collection.hh"
#include "BKE_curves.hh" #include "BKE_curves.hh"
#include "BKE_customdata.hh" #include "BKE_customdata.hh"
#include "BKE_geometry_set_instances.hh" #include "BKE_geometry_set_instances.hh"
@ -225,6 +219,15 @@ struct AllCurvesInfo {
bool create_custom_normal_attribute = false; bool create_custom_normal_attribute = false;
}; };
struct AllInstancesInfo {
/** store an array of void pointer to attributes for each component. */
Vector<AttributeFallbacksArray> attribute_fallback;
/** Instance components to merge for output geometry. */
Vector<bke::GeometryComponentPtr> instances_components_to_merge;
/** Base transform for each instance component. */
Vector<float4x4> instances_components_transforms;
};
/** Collects all tasks that need to be executed to realize all instances. */ /** Collects all tasks that need to be executed to realize all instances. */
struct GatherTasks { struct GatherTasks {
Vector<RealizePointCloudTask> pointcloud_tasks; Vector<RealizePointCloudTask> pointcloud_tasks;
@ -249,8 +252,15 @@ struct GatherTasksInfo {
const AllPointCloudsInfo &pointclouds; const AllPointCloudsInfo &pointclouds;
const AllMeshesInfo &meshes; const AllMeshesInfo &meshes;
const AllCurvesInfo &curves; const AllCurvesInfo &curves;
const OrderedAttributes &instances_attriubutes;
bool create_id_attribute_on_any_component = false; bool create_id_attribute_on_any_component = false;
/** Selection for top-level instances to realize. */
IndexMask selection;
/** Depth to realize instances for each selected top-level instance. */
const VArray<int> &depths;
/** /**
* Under some circumstances, temporary arrays need to be allocated during the gather operation. * Under some circumstances, temporary arrays need to be allocated during the gather operation.
* For example, when an instance attribute has to be realized as a different data type. This * For example, when an instance attribute has to be realized as a different data type. This
@ -259,6 +269,8 @@ struct GatherTasksInfo {
*/ */
Vector<std::unique_ptr<GArray<>>> &r_temporary_arrays; Vector<std::unique_ptr<GArray<>>> &r_temporary_arrays;
AllInstancesInfo instances;
/** All gathered tasks. */ /** All gathered tasks. */
GatherTasks r_tasks; GatherTasks r_tasks;
/** Current offsets while gathering tasks. */ /** Current offsets while gathering tasks. */
@ -275,17 +287,40 @@ struct InstanceContext {
AttributeFallbacksArray meshes; AttributeFallbacksArray meshes;
/** Ordered by #AllCurvesInfo.attributes. */ /** Ordered by #AllCurvesInfo.attributes. */
AttributeFallbacksArray curves; AttributeFallbacksArray curves;
/** Ordered by #AllInstancesInfo.attributes. */
AttributeFallbacksArray instances;
/** Id mixed from all parent instances. */ /** Id mixed from all parent instances. */
uint32_t id = 0; uint32_t id = 0;
InstanceContext(const GatherTasksInfo &gather_info) InstanceContext(const GatherTasksInfo &gather_info)
: pointclouds(gather_info.pointclouds.attributes.size()), : pointclouds(gather_info.pointclouds.attributes.size()),
meshes(gather_info.meshes.attributes.size()), meshes(gather_info.meshes.attributes.size()),
curves(gather_info.curves.attributes.size()) curves(gather_info.curves.attributes.size()),
instances(gather_info.instances_attriubutes.size())
{ {
//empty
} }
}; };
static void realize_collections(Collection *collection, bke::Instances *instances)
{
LISTBASE_FOREACH (CollectionChild *, collection_child, &collection->children) {
float4x4 transform = float4x4::identity();
transform.location() += float3((collection_child->collection)->instance_offset);
transform.location() -= float3(collection->instance_offset);
const int handle = instances->add_reference(*(collection_child->collection));
instances->add_instance(handle, transform);
}
LISTBASE_FOREACH (CollectionObject *, collection_object, &collection->gobject) {
float4x4 transform = float4x4::identity();
transform.location() -= float3(collection->instance_offset);
transform *= (collection_object->ob)->object_to_world();
const int handle = instances->add_reference(*(collection_object->ob));
instances->add_instance(handle, transform);
}
}
static int64_t get_final_points_num(const GatherTasks &tasks) static int64_t get_final_points_num(const GatherTasks &tasks)
{ {
int64_t points_num = 0; int64_t points_num = 0;
@ -377,12 +412,12 @@ static void copy_generic_attributes_to_result(
}); });
} }
static void create_result_ids(const RealizeInstancesOptions &options, static void create_result_ids(bool keep_original_ids,
Span<int> stored_ids, Span<int> stored_ids,
const int task_id, const int task_id,
MutableSpan<int> dst_ids) MutableSpan<int> dst_ids)
{ {
if (options.keep_original_ids) { if (keep_original_ids) {
if (stored_ids.is_empty()) { if (stored_ids.is_empty()) {
dst_ids.fill(0); dst_ids.fill(0);
} }
@ -414,6 +449,8 @@ static void create_result_ids(const RealizeInstancesOptions &options,
/* Forward declaration. */ /* Forward declaration. */
static void gather_realize_tasks_recursive(GatherTasksInfo &gather_info, static void gather_realize_tasks_recursive(GatherTasksInfo &gather_info,
const int current_depth,
const int target_depth,
const bke::GeometrySet &geometry_set, const bke::GeometrySet &geometry_set,
const float4x4 &base_transform, const float4x4 &base_transform,
const InstanceContext &base_instance_context); const InstanceContext &base_instance_context);
@ -463,6 +500,38 @@ static Vector<std::pair<int, GSpan>> prepare_attribute_fallbacks(
return attributes_to_override; return attributes_to_override;
} }
static bke::GeometrySet &geometry_set_from_reference(const InstanceReference &reference,
bke::GeometrySet &r_geometry_set)
{
switch (reference.type()) {
case InstanceReference::Type::Object: {
const Object &object = reference.object();
r_geometry_set = bke::object_get_evaluated_geometry_set(object);
break;
}
case InstanceReference::Type::Collection: {
Collection *collection_ptr = &reference.collection();
std::unique_ptr<bke::Instances> instances = std::make_unique<bke::Instances>();
realize_collections(collection_ptr, instances.get());
r_geometry_set.replace_instances(instances.release());
break;
}
case InstanceReference::Type::GeometrySet: {
r_geometry_set = reference.geometry_set();
break;
}
case InstanceReference::Type::None: {
r_geometry_set = bke::GeometrySet(); // Return an empty GeometrySet for None type
break;
}
default: {
r_geometry_set = bke::GeometrySet();
break;
}
}
return r_geometry_set;
}
/** /**
* Calls #fn for every geometry in the given #InstanceReference. Also passes on the transformation * Calls #fn for every geometry in the given #InstanceReference. Also passes on the transformation
* that is applied to every instance. * that is applied to every instance.
@ -474,40 +543,14 @@ static void foreach_geometry_in_reference(
FunctionRef<void(const bke::GeometrySet &geometry_set, const float4x4 &transform, uint32_t id)> FunctionRef<void(const bke::GeometrySet &geometry_set, const float4x4 &transform, uint32_t id)>
fn) fn)
{ {
switch (reference.type()) { bke::GeometrySet geometry_set;
case InstanceReference::Type::Object: { geometry_set_from_reference(reference, geometry_set);
const Object &object = reference.object(); fn(geometry_set, base_transform, id);
const bke::GeometrySet object_geometry = bke::object_get_evaluated_geometry_set(object);
fn(object_geometry, base_transform, id);
break;
}
case InstanceReference::Type::Collection: {
Collection &collection = reference.collection();
float4x4 offset_matrix = float4x4::identity();
offset_matrix.location() -= collection.instance_offset;
int index = 0;
FOREACH_COLLECTION_OBJECT_RECURSIVE_BEGIN (&collection, object) {
const bke::GeometrySet object_geometry = bke::object_get_evaluated_geometry_set(*object);
const float4x4 matrix = base_transform * offset_matrix * object->object_to_world();
const int sub_id = noise::hash(id, index);
fn(object_geometry, matrix, sub_id);
index++;
}
FOREACH_COLLECTION_OBJECT_RECURSIVE_END;
break;
}
case InstanceReference::Type::GeometrySet: {
const bke::GeometrySet &instance_geometry_set = reference.geometry_set();
fn(instance_geometry_set, base_transform, id);
break;
}
case InstanceReference::Type::None: {
break;
}
}
} }
static void gather_realize_tasks_for_instances(GatherTasksInfo &gather_info, static void gather_realize_tasks_for_instances(GatherTasksInfo &gather_info,
const int current_depth,
const int target_depth,
const Instances &instances, const Instances &instances,
const float4x4 &base_transform, const float4x4 &base_transform,
const InstanceContext &base_instance_context) const InstanceContext &base_instance_context)
@ -532,8 +575,17 @@ static void gather_realize_tasks_for_instances(GatherTasksInfo &gather_info,
gather_info, instances, gather_info.meshes.attributes); gather_info, instances, gather_info.meshes.attributes);
Vector<std::pair<int, GSpan>> curve_attributes_to_override = prepare_attribute_fallbacks( Vector<std::pair<int, GSpan>> curve_attributes_to_override = prepare_attribute_fallbacks(
gather_info, instances, gather_info.curves.attributes); gather_info, instances, gather_info.curves.attributes);
Vector<std::pair<int, GSpan>> instance_attributes_to_override = prepare_attribute_fallbacks(
gather_info, instances, gather_info.instances_attriubutes);
for (const int i : transforms.index_range()) { /* If at top level, get instance indices from selection field, else use all instances. */
const IndexMask indices = current_depth == 0 ? gather_info.selection :
IndexMask(IndexRange(instances.instances_num()));
for (const int mask_index : indices.index_range()) {
const int i = indices[mask_index];
/* If at top level, retrieve depth from gather_info, else continue with target_depth. */
const int depth_target = current_depth == 0 ? gather_info.depths[mask_index] : target_depth;
const int handle = handles[i]; const int handle = handles[i];
const float4x4 &transform = transforms[i]; const float4x4 &transform = transforms[i];
const InstanceReference &reference = references[handle]; const InstanceReference &reference = references[handle];
@ -549,6 +601,9 @@ static void gather_realize_tasks_for_instances(GatherTasksInfo &gather_info,
for (const std::pair<int, GSpan> &pair : curve_attributes_to_override) { for (const std::pair<int, GSpan> &pair : curve_attributes_to_override) {
instance_context.curves.array[pair.first] = pair.second[i]; instance_context.curves.array[pair.first] = pair.second[i];
} }
for (const std::pair<int, GSpan> &pair : instance_attributes_to_override) {
instance_context.instances.array[pair.first] = pair.second[i];
}
uint32_t local_instance_id = 0; uint32_t local_instance_id = 0;
if (gather_info.create_id_attribute_on_any_component) { if (gather_info.create_id_attribute_on_any_component) {
@ -570,6 +625,8 @@ static void gather_realize_tasks_for_instances(GatherTasksInfo &gather_info,
const uint32_t id) { const uint32_t id) {
instance_context.id = id; instance_context.id = id;
gather_realize_tasks_recursive(gather_info, gather_realize_tasks_recursive(gather_info,
current_depth + 1,
depth_target,
instance_geometry_set, instance_geometry_set,
transform, transform,
instance_context); instance_context);
@ -581,6 +638,8 @@ static void gather_realize_tasks_for_instances(GatherTasksInfo &gather_info,
* Gather tasks for all geometries in the #geometry_set. * Gather tasks for all geometries in the #geometry_set.
*/ */
static void gather_realize_tasks_recursive(GatherTasksInfo &gather_info, static void gather_realize_tasks_recursive(GatherTasksInfo &gather_info,
const int current_depth,
const int target_depth,
const bke::GeometrySet &geometry_set, const bke::GeometrySet &geometry_set,
const float4x4 &base_transform, const float4x4 &base_transform,
const InstanceContext &base_instance_context) const InstanceContext &base_instance_context)
@ -589,9 +648,7 @@ static void gather_realize_tasks_recursive(GatherTasksInfo &gather_info,
const bke::GeometryComponent::Type type = component->type(); const bke::GeometryComponent::Type type = component->type();
switch (type) { switch (type) {
case bke::GeometryComponent::Type::Mesh: { case bke::GeometryComponent::Type::Mesh: {
const bke::MeshComponent &mesh_component = *static_cast<const bke::MeshComponent *>( const Mesh *mesh = (*static_cast<const bke::MeshComponent *>(component)).get();
component);
const Mesh *mesh = mesh_component.get();
if (mesh != nullptr && mesh->verts_num > 0) { if (mesh != nullptr && mesh->verts_num > 0) {
const int mesh_index = gather_info.meshes.order.index_of(mesh); const int mesh_index = gather_info.meshes.order.index_of(mesh);
const MeshRealizeInfo &mesh_info = gather_info.meshes.realize_info[mesh_index]; const MeshRealizeInfo &mesh_info = gather_info.meshes.realize_info[mesh_index];
@ -641,17 +698,29 @@ static void gather_realize_tasks_recursive(GatherTasksInfo &gather_info,
break; break;
} }
case bke::GeometryComponent::Type::Instance: { case bke::GeometryComponent::Type::Instance: {
const auto &instances_component = *static_cast<const bke::InstancesComponent *>(component); if (current_depth == target_depth) {
const Instances *instances = instances_component.get(); gather_info.instances.attribute_fallback.append(base_instance_context.instances);
gather_info.instances.instances_components_to_merge.append(component->copy());
gather_info.instances.instances_components_transforms.append(base_transform);
}
else {
const Instances *instances =
(*static_cast<const bke::InstancesComponent *>(component)).get();
if (instances != nullptr && instances->instances_num() > 0) { if (instances != nullptr && instances->instances_num() > 0) {
gather_realize_tasks_for_instances( gather_realize_tasks_for_instances(gather_info,
gather_info, *instances, base_transform, base_instance_context); current_depth,
target_depth,
*instances,
base_transform,
base_instance_context);
}
} }
break; break;
} }
case bke::GeometryComponent::Type::Volume: { case bke::GeometryComponent::Type::Volume: {
const auto *volume_component = static_cast<const bke::VolumeComponent *>(component);
if (!gather_info.r_tasks.first_volume) { if (!gather_info.r_tasks.first_volume) {
const bke::VolumeComponent *volume_component = static_cast<const bke::VolumeComponent *>(
component);
volume_component->add_user(); volume_component->add_user();
gather_info.r_tasks.first_volume = ImplicitSharingPtr<const bke::VolumeComponent>( gather_info.r_tasks.first_volume = ImplicitSharingPtr<const bke::VolumeComponent>(
volume_component); volume_component);
@ -659,9 +728,9 @@ static void gather_realize_tasks_recursive(GatherTasksInfo &gather_info,
break; break;
} }
case bke::GeometryComponent::Type::Edit: { case bke::GeometryComponent::Type::Edit: {
const auto *edit_component = static_cast<const bke::GeometryComponentEditData *>(
component);
if (!gather_info.r_tasks.first_edit_data) { if (!gather_info.r_tasks.first_edit_data) {
const bke::GeometryComponentEditData *edit_component =
static_cast<const bke::GeometryComponentEditData *>(component);
edit_component->add_user(); edit_component->add_user();
gather_info.r_tasks.first_edit_data = gather_info.r_tasks.first_edit_data =
ImplicitSharingPtr<const bke::GeometryComponentEditData>(edit_component); ImplicitSharingPtr<const bke::GeometryComponentEditData>(edit_component);
@ -676,6 +745,278 @@ static void gather_realize_tasks_recursive(GatherTasksInfo &gather_info,
} }
} }
/**
* This function iterates through a set of geometries, applying a callback to each attribute of
* eligible children based on specified conditions. Attributes should not be removed or added
* by the callback. Relevant children are determined by three criteria: the component type
* (e.g., mesh, curve), a depth value greater than 0 and a selection. If the primary component
* is an instance, the condition is true only when the depth is exactly 0. Additionally, the
* function extends its operation to instances if any of their nested children meet the first
* condition.
*
* Based on bke::GeometrySet::attribute_foreach
*/
static bool attribute_foreach(const bke::GeometrySet &geometry_set,
const Span<bke::GeometryComponent::Type> component_types,
const int current_depth,
const int depth_target,
const VArray<int> instance_depth,
const IndexMask selection,
const bke::GeometrySet::AttributeForeachCallback callback)
{
/*Initialize flag to track if child instances have the specified components.*/
bool child_has_component = true;
if (geometry_set.has_instances()) {
child_has_component = false;
const Instances &instances = *geometry_set.get_instances();
const IndexMask indices = (0 == current_depth) ?
selection :
IndexMask(IndexRange(instances.instances_num()));
for (const int index : indices.index_range()) {
const int i = indices[index];
const int depth_target_tmp = (0 == current_depth) ? instance_depth[i] : depth_target;
bke::GeometrySet instance_geometry_set;
geometry_set_from_reference(instances.references()[instances.reference_handles()[i]],
instance_geometry_set);
/*Process child instances with a recursive call.*/
if (current_depth != depth_target_tmp) {
child_has_component = child_has_component | attribute_foreach(instance_geometry_set,
component_types,
current_depth + 1,
depth_target_tmp,
instance_depth,
selection,
callback);
}
}
}
/*Flag to track if any relevant attributes were found.*/
bool is_relevant = false;
for (const bke::GeometryComponent::Type component_type : component_types) {
if (geometry_set.has(component_type)) {
/*Check if the current instance components is the main one*/
const bool is_special_instance = (bke::GeometryComponent::Type::Instance ==
component_type) &&
(component_types.size() > 1);
if (!is_special_instance || child_has_component) {
/*Process attributes for the current component.*/
const bke::GeometryComponent &component = *geometry_set.get_component(component_type);
const std::optional<bke::AttributeAccessor> attributes = component.attributes();
if (attributes.has_value()) {
attributes->for_all(
[&](const AttributeIDRef &attributeId, const AttributeMetaData &metaData) {
callback(attributeId, metaData, component);
return true;
});
is_relevant = true;
}
}
}
}
return is_relevant;
}
/**
* Based on bke::GeometrySet::gather_attributes_for_propagation.
* Specialized for Specialized attribute_foreach to get:
* current_depth, depth_target, instance_depth and selection.
*/
void static gather_attributes_for_propagation(
bke::GeometrySet re_geometry_set,
const Span<bke::GeometryComponent::Type> component_types,
const bke::GeometryComponent::Type dst_component_type,
const VArray<int> instance_depth,
const IndexMask selection,
const bke::AnonymousAttributePropagationInfo &propagation_info,
Map<AttributeIDRef, AttributeKind> &r_attributes)
{
/* Only needed right now to check if an attribute is built-in on this component type.
* TODO: Get rid of the dummy component. */
const bke::GeometryComponentPtr dummy_component = bke::GeometryComponent::create(
dst_component_type);
attribute_foreach(re_geometry_set,
component_types,
0,
VariedDepthOption::MAX_DEPTH,
instance_depth,
selection,
[&](const AttributeIDRef &attribute_id,
const AttributeMetaData &meta_data,
const bke::GeometryComponent &component) {
if (component.attributes()->is_builtin(attribute_id)) {
if (!dummy_component->attributes()->is_builtin(attribute_id)) {
/* Don't propagate built-in attributes that are not built-in on the
* destination component. */
return;
}
}
if (meta_data.data_type == CD_PROP_STRING) {
/* Propagating string attributes is not supported yet. */
return;
}
if (attribute_id.is_anonymous() &&
!propagation_info.propagate(attribute_id.anonymous_id())) {
return;
}
AttrDomain domain = meta_data.domain;
if (dst_component_type != bke::GeometryComponent::Type::Instance &&
domain == AttrDomain::Instance) {
domain = AttrDomain::Point;
}
auto add_info = [&](AttributeKind *attribute_kind) {
attribute_kind->domain = domain;
attribute_kind->data_type = meta_data.data_type;
};
auto modify_info = [&](AttributeKind *attribute_kind) {
attribute_kind->domain = bke::attribute_domain_highest_priority(
{attribute_kind->domain, domain});
attribute_kind->data_type = bke::attribute_data_type_highest_complexity(
{attribute_kind->data_type, meta_data.data_type});
};
r_attributes.add_or_modify(attribute_id, add_info, modify_info);
});
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name Instance
* \{ */
static OrderedAttributes gather_generic_instance_attributes_to_propagate(
const bke::GeometrySet &in_geometry_set,
const RealizeInstancesOptions &options,
const VariedDepthOption &varied_depth_option)
{
Vector<bke::GeometryComponent::Type> src_component_types;
src_component_types.append(bke::GeometryComponent::Type::Instance);
Map<AttributeIDRef, AttributeKind> attributes_to_propagate;
gather_attributes_for_propagation(in_geometry_set,
src_component_types,
bke::GeometryComponent::Type::Instance,
varied_depth_option.depths,
varied_depth_option.selection,
options.propagation_info,
attributes_to_propagate);
attributes_to_propagate.remove("position");
attributes_to_propagate.remove("radius");
attributes_to_propagate.pop_try("id").has_value();
OrderedAttributes ordered_attributes;
for (const auto item : attributes_to_propagate.items()) {
ordered_attributes.ids.add_new(item.key);
ordered_attributes.kinds.append(item.value);
}
return ordered_attributes;
}
static void execute_instances_tasks(
const Span<bke::GeometryComponentPtr> src_components,
Span<blender::float4x4> src_base_transforms,
OrderedAttributes all_instances_attributes,
Span<blender::geometry::AttributeFallbacksArray> attribute_fallback,
bke::GeometrySet &r_realized_geometry)
{
BLI_assert(src_components.size() == src_base_transforms.size() &&
src_components.size() == attribute_fallback.size());
if (src_components.is_empty()) {
return;
}
VArray<blender::float4x4>::ForSpan(src_base_transforms);
Array<int> offsets_data(src_components.size() + 1);
for (const int component_index : src_components.index_range()) {
const bke::InstancesComponent &src_component = static_cast<const bke::InstancesComponent &>(
*src_components[component_index]);
offsets_data[component_index] = src_component.get()->instances_num();
}
const OffsetIndices offsets = offset_indices::accumulate_counts_to_offsets(offsets_data);
std::unique_ptr<bke::Instances> dst_instances = std::make_unique<bke::Instances>();
dst_instances->resize(offsets.total_size());
/* Prepare generic output attributes. */
for (const int attribute_index : all_instances_attributes.index_range()) {
bke::AttrDomain domain = bke::AttrDomain::Instance;
bke::AttributeIDRef id = all_instances_attributes.ids[attribute_index];
eCustomDataType type = all_instances_attributes.kinds[attribute_index].data_type;
blender::bke::MutableAttributeAccessor attr = dst_instances->attributes_for_write();
attr.lookup_or_add_for_write_only_span(id, domain, type).finish();
}
MutableSpan<float4x4> all_transforms = dst_instances->transforms_for_write();
MutableSpan<int> all_handles = dst_instances->reference_handles_for_write();
for (const int component_index : src_components.index_range()) {
const bke::InstancesComponent &src_component = static_cast<const bke::InstancesComponent &>(
*src_components[component_index]);
const bke::Instances &src_instances = *src_component.get();
const blender::float4x4 src_base_transform = src_base_transforms[component_index];
const Array<const void *> attribute_fallback_array = attribute_fallback[component_index].array;
const Span<bke::InstanceReference> src_references = src_instances.references();
Array<int> handle_map(src_references.size());
for (const int src_handle : src_references.index_range()) {
handle_map[src_handle] = dst_instances->add_reference(src_references[src_handle]);
}
const IndexRange dst_range = offsets[component_index];
for (const int attribute_index : all_instances_attributes.index_range()) {
bke::AttributeIDRef id = all_instances_attributes.ids[attribute_index];
eCustomDataType type = all_instances_attributes.kinds[attribute_index].data_type;
const CPPType *cpp_type = bke::custom_data_type_to_cpp_type(type);
BLI_assert(cpp_type != nullptr);
bke::GSpanAttributeWriter write_attribute =
dst_instances->attributes_for_write().lookup_for_write_span(id);
GMutableSpan dst_span = write_attribute.span;
if (!write_attribute) { // do not override existing attributes
continue;
}
const void *attribute_ptr;
if (attribute_fallback_array[attribute_index] != nullptr) {
attribute_ptr = attribute_fallback_array[attribute_index];
}
else {
attribute_ptr = cpp_type->default_value();
}
GVArray src_span = GVArray::ForSingle(*cpp_type, dst_range.size(), attribute_ptr);
array_utils::copy(src_span, dst_span.slice(dst_range));
write_attribute.finish();
}
const Span<int> src_handles = src_instances.reference_handles();
array_utils::gather(handle_map.as_span(), src_handles, all_handles.slice(dst_range));
array_utils::copy(src_instances.transforms(), all_transforms.slice(dst_range));
for (blender::float4x4 &transfrom : all_transforms.slice(dst_range)) {
transfrom *= src_base_transform;
}
}
r_realized_geometry.replace_instances(dst_instances.release());
auto &dst_component = r_realized_geometry.get_component_for_write<bke::InstancesComponent>();
Vector<const bke::GeometryComponent *> for_join_attributes;
for (bke::GeometryComponentPtr compent : src_components) {
for_join_attributes.append(compent.get());
}
join_attributes(
for_join_attributes, dst_component, {"position", ".reference_index", "instance_transform"});
}
/** \} */ /** \} */
/* -------------------------------------------------------------------- */ /* -------------------------------------------------------------------- */
@ -685,6 +1026,7 @@ static void gather_realize_tasks_recursive(GatherTasksInfo &gather_info,
static OrderedAttributes gather_generic_pointcloud_attributes_to_propagate( static OrderedAttributes gather_generic_pointcloud_attributes_to_propagate(
const bke::GeometrySet &in_geometry_set, const bke::GeometrySet &in_geometry_set,
const RealizeInstancesOptions &options, const RealizeInstancesOptions &options,
const VariedDepthOption &varied_depth_option,
bool &r_create_radii, bool &r_create_radii,
bool &r_create_id) bool &r_create_id)
{ {
@ -695,11 +1037,14 @@ static OrderedAttributes gather_generic_pointcloud_attributes_to_propagate(
} }
Map<AttributeIDRef, AttributeKind> attributes_to_propagate; Map<AttributeIDRef, AttributeKind> attributes_to_propagate;
in_geometry_set.gather_attributes_for_propagation(src_component_types, gather_attributes_for_propagation(in_geometry_set,
src_component_types,
bke::GeometryComponent::Type::PointCloud, bke::GeometryComponent::Type::PointCloud,
true, varied_depth_option.depths,
varied_depth_option.selection,
options.propagation_info, options.propagation_info,
attributes_to_propagate); attributes_to_propagate);
attributes_to_propagate.remove("position"); attributes_to_propagate.remove("position");
r_create_id = attributes_to_propagate.pop_try("id").has_value(); r_create_id = attributes_to_propagate.pop_try("id").has_value();
r_create_radii = attributes_to_propagate.pop_try("radius").has_value(); r_create_radii = attributes_to_propagate.pop_try("radius").has_value();
@ -727,11 +1072,15 @@ static void gather_pointclouds_to_realize(const bke::GeometrySet &geometry_set,
} }
static AllPointCloudsInfo preprocess_pointclouds(const bke::GeometrySet &geometry_set, static AllPointCloudsInfo preprocess_pointclouds(const bke::GeometrySet &geometry_set,
const RealizeInstancesOptions &options) const RealizeInstancesOptions &options,
const VariedDepthOption &varied_depth_option)
{ {
AllPointCloudsInfo info; AllPointCloudsInfo info;
info.attributes = gather_generic_pointcloud_attributes_to_propagate( info.attributes = gather_generic_pointcloud_attributes_to_propagate(geometry_set,
geometry_set, options, info.create_radius_attribute, info.create_id_attribute); options,
varied_depth_option,
info.create_radius_attribute,
info.create_id_attribute);
gather_pointclouds_to_realize(geometry_set, info.order); gather_pointclouds_to_realize(geometry_set, info.order);
info.realize_info.reinitialize(info.order.size()); info.realize_info.reinitialize(info.order.size());
@ -770,7 +1119,7 @@ static AllPointCloudsInfo preprocess_pointclouds(const bke::GeometrySet &geometr
} }
static void execute_realize_pointcloud_task( static void execute_realize_pointcloud_task(
const RealizeInstancesOptions &options, bool keep_original_ids,
const RealizePointCloudTask &task, const RealizePointCloudTask &task,
const OrderedAttributes &ordered_attributes, const OrderedAttributes &ordered_attributes,
MutableSpan<GSpanAttributeWriter> dst_attribute_writers, MutableSpan<GSpanAttributeWriter> dst_attribute_writers,
@ -788,7 +1137,7 @@ static void execute_realize_pointcloud_task(
/* Create point ids. */ /* Create point ids. */
if (!all_dst_ids.is_empty()) { if (!all_dst_ids.is_empty()) {
create_result_ids( create_result_ids(
options, pointcloud_info.stored_ids, task.id, all_dst_ids.slice(point_slice)); keep_original_ids, pointcloud_info.stored_ids, task.id, all_dst_ids.slice(point_slice));
} }
if (!all_dst_radii.is_empty()) { if (!all_dst_radii.is_empty()) {
pointcloud_info.radii.materialize(all_dst_radii.slice(point_slice)); pointcloud_info.radii.materialize(all_dst_radii.slice(point_slice));
@ -806,7 +1155,7 @@ static void execute_realize_pointcloud_task(
dst_attribute_writers); dst_attribute_writers);
} }
static void execute_realize_pointcloud_tasks(const RealizeInstancesOptions &options, static void execute_realize_pointcloud_tasks(bool keep_original_ids,
const AllPointCloudsInfo &all_pointclouds_info, const AllPointCloudsInfo &all_pointclouds_info,
const Span<RealizePointCloudTask> tasks, const Span<RealizePointCloudTask> tasks,
const OrderedAttributes &ordered_attributes, const OrderedAttributes &ordered_attributes,
@ -858,7 +1207,7 @@ static void execute_realize_pointcloud_tasks(const RealizeInstancesOptions &opti
threading::parallel_for(tasks.index_range(), 100, [&](const IndexRange task_range) { threading::parallel_for(tasks.index_range(), 100, [&](const IndexRange task_range) {
for (const int task_index : task_range) { for (const int task_index : task_range) {
const RealizePointCloudTask &task = tasks[task_index]; const RealizePointCloudTask &task = tasks[task_index];
execute_realize_pointcloud_task(options, execute_realize_pointcloud_task(keep_original_ids,
task, task,
ordered_attributes, ordered_attributes,
dst_attribute_writers, dst_attribute_writers,
@ -886,6 +1235,7 @@ static void execute_realize_pointcloud_tasks(const RealizeInstancesOptions &opti
static OrderedAttributes gather_generic_mesh_attributes_to_propagate( static OrderedAttributes gather_generic_mesh_attributes_to_propagate(
const bke::GeometrySet &in_geometry_set, const bke::GeometrySet &in_geometry_set,
const RealizeInstancesOptions &options, const RealizeInstancesOptions &options,
const VariedDepthOption &varied_depth_option,
bool &r_create_id, bool &r_create_id,
bool &r_create_material_index) bool &r_create_material_index)
{ {
@ -896,9 +1246,11 @@ static OrderedAttributes gather_generic_mesh_attributes_to_propagate(
} }
Map<AttributeIDRef, AttributeKind> attributes_to_propagate; Map<AttributeIDRef, AttributeKind> attributes_to_propagate;
in_geometry_set.gather_attributes_for_propagation(src_component_types, gather_attributes_for_propagation(in_geometry_set,
src_component_types,
bke::GeometryComponent::Type::Mesh, bke::GeometryComponent::Type::Mesh,
true, varied_depth_option.depths,
varied_depth_option.selection,
options.propagation_info, options.propagation_info,
attributes_to_propagate); attributes_to_propagate);
attributes_to_propagate.remove("position"); attributes_to_propagate.remove("position");
@ -931,11 +1283,16 @@ static void gather_meshes_to_realize(const bke::GeometrySet &geometry_set,
} }
static AllMeshesInfo preprocess_meshes(const bke::GeometrySet &geometry_set, static AllMeshesInfo preprocess_meshes(const bke::GeometrySet &geometry_set,
const RealizeInstancesOptions &options) const RealizeInstancesOptions &options,
const VariedDepthOption &varied_depth_option)
{ {
AllMeshesInfo info; AllMeshesInfo info;
info.attributes = gather_generic_mesh_attributes_to_propagate( info.attributes = gather_generic_mesh_attributes_to_propagate(
geometry_set, options, info.create_id_attribute, info.create_material_index_attribute); geometry_set,
options,
varied_depth_option,
info.create_id_attribute,
info.create_material_index_attribute);
gather_meshes_to_realize(geometry_set, info.order); gather_meshes_to_realize(geometry_set, info.order);
for (const Mesh *mesh : info.order) { for (const Mesh *mesh : info.order) {
@ -1013,7 +1370,7 @@ static AllMeshesInfo preprocess_meshes(const bke::GeometrySet &geometry_set,
return info; return info;
} }
static void execute_realize_mesh_task(const RealizeInstancesOptions &options, static void execute_realize_mesh_task(bool keep_original_ids,
const RealizeMeshTask &task, const RealizeMeshTask &task,
const OrderedAttributes &ordered_attributes, const OrderedAttributes &ordered_attributes,
MutableSpan<GSpanAttributeWriter> dst_attribute_writers, MutableSpan<GSpanAttributeWriter> dst_attribute_writers,
@ -1097,7 +1454,7 @@ static void execute_realize_mesh_task(const RealizeInstancesOptions &options,
} }
if (!all_dst_vertex_ids.is_empty()) { if (!all_dst_vertex_ids.is_empty()) {
create_result_ids(options, create_result_ids(keep_original_ids,
mesh_info.stored_vertex_ids, mesh_info.stored_vertex_ids,
task.id, task.id,
all_dst_vertex_ids.slice(task.start_indices.vertex, mesh.verts_num)); all_dst_vertex_ids.slice(task.start_indices.vertex, mesh.verts_num));
@ -1125,7 +1482,7 @@ static void execute_realize_mesh_task(const RealizeInstancesOptions &options,
dst_attribute_writers); dst_attribute_writers);
} }
static void execute_realize_mesh_tasks(const RealizeInstancesOptions &options, static void execute_realize_mesh_tasks(bool keep_original_ids,
const AllMeshesInfo &all_meshes_info, const AllMeshesInfo &all_meshes_info,
const Span<RealizeMeshTask> tasks, const Span<RealizeMeshTask> tasks,
const OrderedAttributes &ordered_attributes, const OrderedAttributes &ordered_attributes,
@ -1208,7 +1565,7 @@ static void execute_realize_mesh_tasks(const RealizeInstancesOptions &options,
threading::parallel_for(tasks.index_range(), 100, [&](const IndexRange task_range) { threading::parallel_for(tasks.index_range(), 100, [&](const IndexRange task_range) {
for (const int task_index : task_range) { for (const int task_index : task_range) {
const RealizeMeshTask &task = tasks[task_index]; const RealizeMeshTask &task = tasks[task_index];
execute_realize_mesh_task(options, execute_realize_mesh_task(keep_original_ids,
task, task,
ordered_attributes, ordered_attributes,
dst_attribute_writers, dst_attribute_writers,
@ -1249,6 +1606,7 @@ static void execute_realize_mesh_tasks(const RealizeInstancesOptions &options,
static OrderedAttributes gather_generic_curve_attributes_to_propagate( static OrderedAttributes gather_generic_curve_attributes_to_propagate(
const bke::GeometrySet &in_geometry_set, const bke::GeometrySet &in_geometry_set,
const RealizeInstancesOptions &options, const RealizeInstancesOptions &options,
const VariedDepthOption &varied_depth_option,
bool &r_create_id) bool &r_create_id)
{ {
Vector<bke::GeometryComponent::Type> src_component_types; Vector<bke::GeometryComponent::Type> src_component_types;
@ -1258,9 +1616,11 @@ static OrderedAttributes gather_generic_curve_attributes_to_propagate(
} }
Map<AttributeIDRef, AttributeKind> attributes_to_propagate; Map<AttributeIDRef, AttributeKind> attributes_to_propagate;
in_geometry_set.gather_attributes_for_propagation(src_component_types, gather_attributes_for_propagation(in_geometry_set,
src_component_types,
bke::GeometryComponent::Type::Curve, bke::GeometryComponent::Type::Curve,
true, varied_depth_option.depths,
varied_depth_option.selection,
options.propagation_info, options.propagation_info,
attributes_to_propagate); attributes_to_propagate);
attributes_to_propagate.remove("position"); attributes_to_propagate.remove("position");
@ -1295,11 +1655,12 @@ static void gather_curves_to_realize(const bke::GeometrySet &geometry_set,
} }
static AllCurvesInfo preprocess_curves(const bke::GeometrySet &geometry_set, static AllCurvesInfo preprocess_curves(const bke::GeometrySet &geometry_set,
const RealizeInstancesOptions &options) const RealizeInstancesOptions &options,
const VariedDepthOption &varied_depth_option)
{ {
AllCurvesInfo info; AllCurvesInfo info;
info.attributes = gather_generic_curve_attributes_to_propagate( info.attributes = gather_generic_curve_attributes_to_propagate(
geometry_set, options, info.create_id_attribute); geometry_set, options, varied_depth_option, info.create_id_attribute);
gather_curves_to_realize(geometry_set, info.order); gather_curves_to_realize(geometry_set, info.order);
info.realize_info.reinitialize(info.order.size()); info.realize_info.reinitialize(info.order.size());
@ -1358,7 +1719,7 @@ static AllCurvesInfo preprocess_curves(const bke::GeometrySet &geometry_set,
return info; return info;
} }
static void execute_realize_curve_task(const RealizeInstancesOptions &options, static void execute_realize_curve_task(bool keep_original_ids,
const AllCurvesInfo &all_curves_info, const AllCurvesInfo &all_curves_info,
const RealizeCurveTask &task, const RealizeCurveTask &task,
const OrderedAttributes &ordered_attributes, const OrderedAttributes &ordered_attributes,
@ -1441,7 +1802,7 @@ static void execute_realize_curve_task(const RealizeInstancesOptions &options,
if (!all_dst_ids.is_empty()) { if (!all_dst_ids.is_empty()) {
create_result_ids( create_result_ids(
options, curves_info.stored_ids, task.id, all_dst_ids.slice(dst_point_range)); keep_original_ids, curves_info.stored_ids, task.id, all_dst_ids.slice(dst_point_range));
} }
copy_generic_attributes_to_result( copy_generic_attributes_to_result(
@ -1462,7 +1823,7 @@ static void execute_realize_curve_task(const RealizeInstancesOptions &options,
dst_attribute_writers); dst_attribute_writers);
} }
static void execute_realize_curve_tasks(const RealizeInstancesOptions &options, static void execute_realize_curve_tasks(bool keep_original_ids,
const AllCurvesInfo &all_curves_info, const AllCurvesInfo &all_curves_info,
const Span<RealizeCurveTask> tasks, const Span<RealizeCurveTask> tasks,
const OrderedAttributes &ordered_attributes, const OrderedAttributes &ordered_attributes,
@ -1541,7 +1902,7 @@ static void execute_realize_curve_tasks(const RealizeInstancesOptions &options,
threading::parallel_for(tasks.index_range(), 100, [&](const IndexRange task_range) { threading::parallel_for(tasks.index_range(), 100, [&](const IndexRange task_range) {
for (const int task_index : task_range) { for (const int task_index : task_range) {
const RealizeCurveTask &task = tasks[task_index]; const RealizeCurveTask &task = tasks[task_index];
execute_realize_curve_task(options, execute_realize_curve_task(keep_original_ids,
all_curves_info, all_curves_info,
task, task,
ordered_attributes, ordered_attributes,
@ -1594,8 +1955,50 @@ static void remove_id_attribute_from_instances(bke::GeometrySet &geometry_set)
}); });
} }
/** Propagate instances from the old geometry set to the new geometry set if they are not realized.
*/
static void propagate_instances_to_keep(
const bke::GeometrySet &geometry_set,
IndexMask selection,
bke::GeometrySet &new_geometry_set,
const bke::AnonymousAttributePropagationInfo &propagation_info)
{
const Instances &instances = *geometry_set.get_instances();
IndexMaskMemory inverse_selection_indices;
const IndexMask inverse_selection = selection.complement(IndexRange(instances.instances_num()),
inverse_selection_indices);
/* Check not all instances are being realized. */
if (inverse_selection.is_empty()) {
return;
}
std::unique_ptr<Instances> new_instances = std::make_unique<Instances>(instances);
new_instances->remove(inverse_selection, propagation_info);
bke::InstancesComponent &new_instances_components =
new_geometry_set.get_component_for_write<bke::InstancesComponent>();
new_instances_components.replace(new_instances.release(), bke::GeometryOwnershipType::Owned);
}
bke::GeometrySet realize_instances(bke::GeometrySet geometry_set, bke::GeometrySet realize_instances(bke::GeometrySet geometry_set,
const RealizeInstancesOptions &options) const RealizeInstancesOptions &options)
{
if (!geometry_set.has_instances()) {
return geometry_set;
}
VariedDepthOption all_instances;
all_instances.depths = VArray<int>::ForSingle(VariedDepthOption::MAX_DEPTH,
geometry_set.get_instances()->instances_num());
IndexMaskMemory memory;
all_instances.selection = IndexMask::from_bools(
VArray<bool>::ForSingle(true, geometry_set.get_instances()->instances_num()), memory);
return realize_instances(geometry_set, options, all_instances);
}
bke::GeometrySet realize_instances(bke::GeometrySet geometry_set,
const RealizeInstancesOptions &options,
const VariedDepthOption &varied_depth_option)
{ {
/* The algorithm works in three steps: /* The algorithm works in three steps:
* 1. Preprocess each unique geometry that is instanced (e.g. each `Mesh`). * 1. Preprocess each unique geometry that is instanced (e.g. each `Mesh`).
@ -1608,46 +2011,78 @@ bke::GeometrySet realize_instances(bke::GeometrySet geometry_set,
return geometry_set; return geometry_set;
} }
bke::GeometrySet not_to_realize_set;
propagate_instances_to_keep(
geometry_set, varied_depth_option.selection, not_to_realize_set, options.propagation_info);
if (options.keep_original_ids) { if (options.keep_original_ids) {
remove_id_attribute_from_instances(geometry_set); remove_id_attribute_from_instances(geometry_set);
} }
AllPointCloudsInfo all_pointclouds_info = preprocess_pointclouds(geometry_set, options); AllPointCloudsInfo all_pointclouds_info = preprocess_pointclouds(
AllMeshesInfo all_meshes_info = preprocess_meshes(geometry_set, options); geometry_set, options, varied_depth_option);
AllCurvesInfo all_curves_info = preprocess_curves(geometry_set, options); AllMeshesInfo all_meshes_info = preprocess_meshes(geometry_set, options, varied_depth_option);
AllCurvesInfo all_curves_info = preprocess_curves(geometry_set, options, varied_depth_option);
OrderedAttributes all_instance_attributes = gather_generic_instance_attributes_to_propagate(
geometry_set, options, varied_depth_option);
Vector<std::unique_ptr<GArray<>>> temporary_arrays;
const bool create_id_attribute = all_pointclouds_info.create_id_attribute || const bool create_id_attribute = all_pointclouds_info.create_id_attribute ||
all_meshes_info.create_id_attribute || all_meshes_info.create_id_attribute ||
all_curves_info.create_id_attribute; all_curves_info.create_id_attribute;
Vector<std::unique_ptr<GArray<>>> temporary_arrays;
GatherTasksInfo gather_info = {all_pointclouds_info, GatherTasksInfo gather_info = {all_pointclouds_info,
all_meshes_info, all_meshes_info,
all_curves_info, all_curves_info,
all_instance_attributes,
create_id_attribute, create_id_attribute,
varied_depth_option.selection,
varied_depth_option.depths,
temporary_arrays}; temporary_arrays};
if (not_to_realize_set.has_instances()) {
gather_info.instances.instances_components_to_merge.append(
(not_to_realize_set.get_component_for_write<bke::InstancesComponent>()).copy());
gather_info.instances.instances_components_transforms.append(float4x4::identity());
gather_info.instances.attribute_fallback.append((gather_info.instances_attriubutes.size()));
}
const float4x4 transform = float4x4::identity(); const float4x4 transform = float4x4::identity();
InstanceContext attribute_fallbacks(gather_info); InstanceContext attribute_fallbacks(gather_info);
gather_realize_tasks_recursive(gather_info, geometry_set, transform, attribute_fallbacks);
gather_realize_tasks_recursive(gather_info,
0,
VariedDepthOption::MAX_DEPTH,
geometry_set,
transform,
attribute_fallbacks);
bke::GeometrySet new_geometry_set; bke::GeometrySet new_geometry_set;
execute_instances_tasks(gather_info.instances.instances_components_to_merge,
gather_info.instances.instances_components_transforms,
all_instance_attributes,
gather_info.instances.attribute_fallback,
new_geometry_set);
const int64_t total_points_num = get_final_points_num(gather_info.r_tasks); const int64_t total_points_num = get_final_points_num(gather_info.r_tasks);
/* This doesn't have to be exact at all, it's just a rough estimate ot make decisions about /* This doesn't have to be exact at all, it's just a rough estimate ot make decisions about
* multi-threading (overhead). */ * multi-threading (overhead). */
const int64_t approximate_used_bytes_num = total_points_num * 32; const int64_t approximate_used_bytes_num = total_points_num * 32;
threading::memory_bandwidth_bound_task(approximate_used_bytes_num, [&]() { threading::memory_bandwidth_bound_task(approximate_used_bytes_num, [&]() {
execute_realize_pointcloud_tasks(options, execute_realize_pointcloud_tasks(options.keep_original_ids,
all_pointclouds_info, all_pointclouds_info,
gather_info.r_tasks.pointcloud_tasks, gather_info.r_tasks.pointcloud_tasks,
all_pointclouds_info.attributes, all_pointclouds_info.attributes,
new_geometry_set); new_geometry_set);
execute_realize_mesh_tasks(options,
execute_realize_mesh_tasks(options.keep_original_ids,
all_meshes_info, all_meshes_info,
gather_info.r_tasks.mesh_tasks, gather_info.r_tasks.mesh_tasks,
all_meshes_info.attributes, all_meshes_info.attributes,
all_meshes_info.materials, all_meshes_info.materials,
new_geometry_set); new_geometry_set);
execute_realize_curve_tasks(options,
execute_realize_curve_tasks(options.keep_original_ids,
all_curves_info, all_curves_info,
gather_info.r_tasks.curve_tasks, gather_info.r_tasks.curve_tasks,
all_curves_info.attributes, all_curves_info.attributes,

View File

@ -4,6 +4,8 @@
#include "node_geometry_util.hh" #include "node_geometry_util.hh"
#include "BKE_instances.hh"
#include "GEO_realize_instances.hh" #include "GEO_realize_instances.hh"
#include "UI_resources.hh" #include "UI_resources.hh"
@ -13,18 +15,65 @@ namespace blender::nodes::node_geo_realize_instances_cc {
static void node_declare(NodeDeclarationBuilder &b) static void node_declare(NodeDeclarationBuilder &b)
{ {
b.add_input<decl::Geometry>("Geometry"); b.add_input<decl::Geometry>("Geometry");
b.add_input<decl::Bool>("Selection")
.default_value(true)
.hide_value()
.supports_field()
.description("Which top-level instances to realize");
b.add_input<decl::Bool>("Realize All")
.default_value(true)
.supports_field()
.description("Determine wether to realize nested instances completly");
b.add_input<decl::Int>("Depth").default_value(0).min(0).supports_field().description(
"Number of levels of nested instances to realize for each top-level instance");
b.add_output<decl::Geometry>("Geometry").propagate_all(); b.add_output<decl::Geometry>("Geometry").propagate_all();
} }
static void node_geo_exec(GeoNodeExecParams params) static void node_geo_exec(GeoNodeExecParams params)
{ {
GeometrySet geometry_set = params.extract_input<GeometrySet>("Geometry"); GeometrySet geometry_set = params.extract_input<GeometrySet>("Geometry");
if (!geometry_set.has_instances()) {
params.set_output("Geometry", std::move(geometry_set));
return;
}
GeometryComponentEditData::remember_deformed_positions_if_necessary(geometry_set); GeometryComponentEditData::remember_deformed_positions_if_necessary(geometry_set);
Field<bool> selection_field = params.extract_input<Field<bool>>("Selection");
Field<bool> realize_all_filed = params.extract_input<Field<bool>>("Realize All");
Field<int> depth_field = params.extract_input<Field<int>>("Depth");
static auto depth_override = mf::build::SI2_SO<int, bool, int>(
"depth_override",
[](int value, bool realize) { return realize ? -1 : std::max(value, 0); },
mf::build::exec_presets::AllSpanOrSingle());
static auto selection_override = mf::build::SI2_SO<int, bool, bool>(
"selection_override",
[](int value, bool selection) { return value == 0 ? false : selection; },
mf::build::exec_presets::AllSpanOrSingle());
Field<int> depth_field_overrided(
FieldOperation::Create(depth_override, {depth_field, realize_all_filed}));
Field<bool> selection_field_overrided(
FieldOperation::Create(selection_override, {depth_field_overrided, selection_field}));
const bke::Instances &instances = *geometry_set.get_instances();
const bke::InstancesFieldContext field_context(instances);
fn::FieldEvaluator evaluator(field_context, instances.instances_num());
const int evaluated_depth_index = evaluator.add(depth_field_overrided);
evaluator.set_selection(selection_field_overrided);
evaluator.evaluate();
geometry::VariedDepthOption varied_depth_option;
varied_depth_option.depths = evaluator.get_evaluated<int>(evaluated_depth_index);
varied_depth_option.selection = evaluator.get_evaluated_selection_as_mask();
geometry::RealizeInstancesOptions options; geometry::RealizeInstancesOptions options;
options.keep_original_ids = false; options.keep_original_ids = false;
options.realize_instance_attributes = true; options.realize_instance_attributes = true;
options.propagation_info = params.get_output_propagation_info("Geometry"); options.propagation_info = params.get_output_propagation_info("Geometry");
geometry_set = geometry::realize_instances(geometry_set, options); geometry_set = geometry::realize_instances(geometry_set, options, varied_depth_option);
params.set_output("Geometry", std::move(geometry_set)); params.set_output("Geometry", std::move(geometry_set));
} }