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blender-archive/source/blender/blenkernel/intern/geometry_set.cc
Hans Goudey 8216b759e9 Geometry Nodes: Initial basic curve data support 
This patch adds initial curve support to geometry nodes. Currently
there is only one node available, the "Curve to Mesh" node, T87428.

However, the aim of the changes here is larger than just supporting
curve data in nodes-- it also uses the opportunity to add better spline
data structures, intended to replace the existing curve evaluation code.
The curve code in Blender is quite old, and it's generally regarded as
some of the messiest, hardest-to-understand code as well. The classes
in `BKE_spline.hh` aim to be faster, more extensible, and much more
easily understandable. Further explanation can be found in comments in
that file.

Initial builtin spline attributes are supported-- reading and writing
from the `cyclic` and `resolution` attributes works with any of the
attribute nodes. Also, only Z-up normal calculation is implemented
at the moment, and tilts do not apply yet.

**Limitations**
 - For now, you must bring curves into the node tree with an "Object
   Info" node. Changes to the curve modifier stack will come later.
 - Converting to a mesh is necessary to visualize the curve data.

Further progress can be tracked in: T87245
Higher level design document: https://wiki.blender.org/wiki/Modules/Physics_Nodes/Projects/EverythingNodes/CurveNodes

Differential Revision: https://developer.blender.org/D11091
2021-05-03 12:29:17 -05:00

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/*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include "BLI_map.hh"
#include "BKE_attribute.h"
#include "BKE_attribute_access.hh"
#include "BKE_geometry_set.hh"
#include "BKE_lib_id.h"
#include "BKE_mesh.h"
#include "BKE_mesh_wrapper.h"
#include "BKE_modifier.h"
#include "BKE_pointcloud.h"
#include "BKE_spline.hh"
#include "BKE_volume.h"
#include "DNA_collection_types.h"
#include "DNA_object_types.h"
#include "BLI_rand.hh"
#include "MEM_guardedalloc.h"
using blender::float3;
using blender::float4x4;
using blender::Map;
using blender::MutableSpan;
using blender::Span;
using blender::StringRef;
using blender::Vector;
/* -------------------------------------------------------------------- */
/** \name Geometry Component
* \{ */
GeometryComponent::GeometryComponent(GeometryComponentType type) : type_(type)
{
}
GeometryComponent *GeometryComponent::create(GeometryComponentType component_type)
{
switch (component_type) {
case GEO_COMPONENT_TYPE_MESH:
return new MeshComponent();
case GEO_COMPONENT_TYPE_POINT_CLOUD:
return new PointCloudComponent();
case GEO_COMPONENT_TYPE_INSTANCES:
return new InstancesComponent();
case GEO_COMPONENT_TYPE_VOLUME:
return new VolumeComponent();
case GEO_COMPONENT_TYPE_CURVE:
return new CurveComponent();
}
BLI_assert_unreachable();
return nullptr;
}
void GeometryComponent::user_add() const
{
users_.fetch_add(1);
}
void GeometryComponent::user_remove() const
{
const int new_users = users_.fetch_sub(1) - 1;
if (new_users == 0) {
delete this;
}
}
bool GeometryComponent::is_mutable() const
{
/* If the item is shared, it is read-only. */
/* The user count can be 0, when this is called from the destructor. */
return users_ <= 1;
}
GeometryComponentType GeometryComponent::type() const
{
return type_;
}
bool GeometryComponent::is_empty() const
{
return false;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name Geometry Set
* \{ */
/* This method can only be used when the geometry set is mutable. It returns a mutable geometry
* component of the given type.
*/
GeometryComponent &GeometrySet::get_component_for_write(GeometryComponentType component_type)
{
return components_.add_or_modify(
component_type,
[&](GeometryComponentPtr *value_ptr) -> GeometryComponent & {
/* If the component did not exist before, create a new one. */
new (value_ptr) GeometryComponentPtr(GeometryComponent::create(component_type));
return **value_ptr;
},
[&](GeometryComponentPtr *value_ptr) -> GeometryComponent & {
GeometryComponentPtr &value = *value_ptr;
if (value->is_mutable()) {
/* If the referenced component is already mutable, return it directly. */
return *value;
}
/* If the referenced component is shared, make a copy. The copy is not shared and is
* therefore mutable. */
GeometryComponent *copied_component = value->copy();
value = GeometryComponentPtr{copied_component};
return *copied_component;
});
}
/* Get the component of the given type. Might return null if the component does not exist yet. */
const GeometryComponent *GeometrySet::get_component_for_read(
GeometryComponentType component_type) const
{
const GeometryComponentPtr *component = components_.lookup_ptr(component_type);
if (component != nullptr) {
return component->get();
}
return nullptr;
}
bool GeometrySet::has(const GeometryComponentType component_type) const
{
return components_.contains(component_type);
}
void GeometrySet::remove(const GeometryComponentType component_type)
{
components_.remove(component_type);
}
void GeometrySet::add(const GeometryComponent &component)
{
BLI_assert(!components_.contains(component.type()));
component.user_add();
GeometryComponentPtr component_ptr{const_cast<GeometryComponent *>(&component)};
components_.add_new(component.type(), std::move(component_ptr));
}
/**
* Get all geometry components in this geometry set for read-only access.
*/
Vector<const GeometryComponent *> GeometrySet::get_components_for_read() const
{
Vector<const GeometryComponent *> components;
for (const GeometryComponentPtr &ptr : components_.values()) {
components.append(ptr.get());
}
return components;
}
void GeometrySet::compute_boundbox_without_instances(float3 *r_min, float3 *r_max) const
{
const PointCloud *pointcloud = this->get_pointcloud_for_read();
if (pointcloud != nullptr) {
BKE_pointcloud_minmax(pointcloud, *r_min, *r_max);
}
const Mesh *mesh = this->get_mesh_for_read();
if (mesh != nullptr) {
BKE_mesh_wrapper_minmax(mesh, *r_min, *r_max);
}
const Volume *volume = this->get_volume_for_read();
if (volume != nullptr) {
BKE_volume_min_max(volume, *r_min, *r_max);
}
const CurveEval *curve = this->get_curve_for_read();
if (curve != nullptr) {
/* Using the evaluated positions is somewhat arbitrary, but it is probably expected. */
curve->bounds_min_max(*r_min, *r_max, true);
}
}
std::ostream &operator<<(std::ostream &stream, const GeometrySet &geometry_set)
{
stream << "<GeometrySet at " << &geometry_set << ", " << geometry_set.components_.size()
<< " components>";
return stream;
}
/* This generally should not be used. It is necessary currently, so that GeometrySet can by used by
* the CPPType system. */
bool operator==(const GeometrySet &UNUSED(a), const GeometrySet &UNUSED(b))
{
return false;
}
/* This generally should not be used. It is necessary currently, so that GeometrySet can by used by
* the CPPType system. */
uint64_t GeometrySet::hash() const
{
return reinterpret_cast<uint64_t>(this);
}
/* Remove all geometry components from the geometry set. */
void GeometrySet::clear()
{
components_.clear();
}
/* Make sure that the geometry can be cached. This does not ensure ownership of object/collection
* instances. */
void GeometrySet::ensure_owns_direct_data()
{
for (GeometryComponentType type : components_.keys()) {
const GeometryComponent *component = this->get_component_for_read(type);
if (!component->owns_direct_data()) {
GeometryComponent &component_for_write = this->get_component_for_write(type);
component_for_write.ensure_owns_direct_data();
}
}
}
/* Returns a read-only mesh or null. */
const Mesh *GeometrySet::get_mesh_for_read() const
{
const MeshComponent *component = this->get_component_for_read<MeshComponent>();
return (component == nullptr) ? nullptr : component->get_for_read();
}
/* Returns true when the geometry set has a mesh component that has a mesh. */
bool GeometrySet::has_mesh() const
{
const MeshComponent *component = this->get_component_for_read<MeshComponent>();
return component != nullptr && component->has_mesh();
}
/* Returns a read-only point cloud of null. */
const PointCloud *GeometrySet::get_pointcloud_for_read() const
{
const PointCloudComponent *component = this->get_component_for_read<PointCloudComponent>();
return (component == nullptr) ? nullptr : component->get_for_read();
}
/* Returns a read-only volume or null. */
const Volume *GeometrySet::get_volume_for_read() const
{
const VolumeComponent *component = this->get_component_for_read<VolumeComponent>();
return (component == nullptr) ? nullptr : component->get_for_read();
}
/* Returns a read-only curve or null. */
const CurveEval *GeometrySet::get_curve_for_read() const
{
const CurveComponent *component = this->get_component_for_read<CurveComponent>();
return (component == nullptr) ? nullptr : component->get_for_read();
}
/* Returns true when the geometry set has a point cloud component that has a point cloud. */
bool GeometrySet::has_pointcloud() const
{
const PointCloudComponent *component = this->get_component_for_read<PointCloudComponent>();
return component != nullptr && component->has_pointcloud();
}
/* Returns true when the geometry set has an instances component that has at least one instance. */
bool GeometrySet::has_instances() const
{
const InstancesComponent *component = this->get_component_for_read<InstancesComponent>();
return component != nullptr && component->instances_amount() >= 1;
}
/* Returns true when the geometry set has a volume component that has a volume. */
bool GeometrySet::has_volume() const
{
const VolumeComponent *component = this->get_component_for_read<VolumeComponent>();
return component != nullptr && component->has_volume();
}
/* Returns true when the geometry set has a curve component that has a curve. */
bool GeometrySet::has_curve() const
{
const CurveComponent *component = this->get_component_for_read<CurveComponent>();
return component != nullptr && component->has_curve();
}
/* Create a new geometry set that only contains the given mesh. */
GeometrySet GeometrySet::create_with_mesh(Mesh *mesh, GeometryOwnershipType ownership)
{
GeometrySet geometry_set;
MeshComponent &component = geometry_set.get_component_for_write<MeshComponent>();
component.replace(mesh, ownership);
return geometry_set;
}
/* Create a new geometry set that only contains the given point cloud. */
GeometrySet GeometrySet::create_with_pointcloud(PointCloud *pointcloud,
GeometryOwnershipType ownership)
{
GeometrySet geometry_set;
PointCloudComponent &component = geometry_set.get_component_for_write<PointCloudComponent>();
component.replace(pointcloud, ownership);
return geometry_set;
}
/* Create a new geometry set that only contains the given curve. */
GeometrySet GeometrySet::create_with_curve(CurveEval *curve, GeometryOwnershipType ownership)
{
GeometrySet geometry_set;
CurveComponent &component = geometry_set.get_component_for_write<CurveComponent>();
component.replace(curve, ownership);
return geometry_set;
}
/* Clear the existing mesh and replace it with the given one. */
void GeometrySet::replace_mesh(Mesh *mesh, GeometryOwnershipType ownership)
{
MeshComponent &component = this->get_component_for_write<MeshComponent>();
component.replace(mesh, ownership);
}
/* Clear the existing curve and replace it with the given one. */
void GeometrySet::replace_curve(CurveEval *curve, GeometryOwnershipType ownership)
{
CurveComponent &component = this->get_component_for_write<CurveComponent>();
component.replace(curve, ownership);
}
/* Clear the existing point cloud and replace with the given one. */
void GeometrySet::replace_pointcloud(PointCloud *pointcloud, GeometryOwnershipType ownership)
{
PointCloudComponent &pointcloud_component = this->get_component_for_write<PointCloudComponent>();
pointcloud_component.replace(pointcloud, ownership);
}
/* Clear the existing volume and replace with the given one. */
void GeometrySet::replace_volume(Volume *volume, GeometryOwnershipType ownership)
{
VolumeComponent &volume_component = this->get_component_for_write<VolumeComponent>();
volume_component.replace(volume, ownership);
}
/* Returns a mutable mesh or null. No ownership is transferred. */
Mesh *GeometrySet::get_mesh_for_write()
{
MeshComponent &component = this->get_component_for_write<MeshComponent>();
return component.get_for_write();
}
/* Returns a mutable point cloud or null. No ownership is transferred. */
PointCloud *GeometrySet::get_pointcloud_for_write()
{
PointCloudComponent &component = this->get_component_for_write<PointCloudComponent>();
return component.get_for_write();
}
/* Returns a mutable volume or null. No ownership is transferred. */
Volume *GeometrySet::get_volume_for_write()
{
VolumeComponent &component = this->get_component_for_write<VolumeComponent>();
return component.get_for_write();
}
/* Returns a mutable curve or null. No ownership is transferred. */
CurveEval *GeometrySet::get_curve_for_write()
{
CurveComponent &component = this->get_component_for_write<CurveComponent>();
return component.get_for_write();
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name C API
* \{ */
void BKE_geometry_set_free(GeometrySet *geometry_set)
{
delete geometry_set;
}
bool BKE_geometry_set_has_instances(const GeometrySet *geometry_set)
{
return geometry_set->get_component_for_read<InstancesComponent>() != nullptr;
}
/** \} */
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