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blender-archive/source/blender/nodes/intern/node_geometry_exec.cc
Hans Goudey ed4222258e Geometry Nodes: Add Curve Subdivision Node 
This node creates splines with more control points in between the
existing control points. The point is to give the splines more
definition for further tweaking like randomization with white noise,
instead of deforming a resampled poly spline with a noise texture.

For poly splines and NURBS, the node simply interpolates new values
between the existing control points. However, for Bezier splines,
the result follows the existing evaluated shape of the curve, changing
the handle positions and handle types to make that possible.

The number of "cuts" can be controlled by an integer input, or an
attribute can be used. Both spline and point domain attributes are
supported, so the number of cuts can vary using the value from the
point at the start of each segment.

Dynamic curve attributes are interpolated to the result with linear
interpolation.

Differential Revision: https://developer.blender.org/D11421
2021-06-17 11:39:23 -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 "DNA_modifier_types.h"
#include "BKE_node_ui_storage.hh"
#include "DEG_depsgraph_query.h"
#include "NOD_geometry_exec.hh"
#include "NOD_type_callbacks.hh"
#include "NOD_type_conversions.hh"
#include "node_geometry_util.hh"
namespace blender::nodes {
void GeoNodeExecParams::error_message_add(const NodeWarningType type, std::string message) const
{
bNodeTree *btree_cow = provider_->dnode->btree();
BLI_assert(btree_cow != nullptr);
if (btree_cow == nullptr) {
return;
}
bNodeTree *btree_original = (bNodeTree *)DEG_get_original_id((ID *)btree_cow);
const NodeTreeEvaluationContext context(*provider_->self_object, *provider_->modifier);
BKE_nodetree_error_message_add(
*btree_original, context, *provider_->dnode->bnode(), type, std::move(message));
}
const bNodeSocket *GeoNodeExecParams::find_available_socket(const StringRef name) const
{
for (const InputSocketRef *socket : provider_->dnode->inputs()) {
if (socket->is_available() && socket->name() == name) {
return socket->bsocket();
}
}
return nullptr;
}
GVArrayPtr GeoNodeExecParams::get_input_attribute(const StringRef name,
const GeometryComponent &component,
const AttributeDomain domain,
const CustomDataType type,
const void *default_value) const
{
const bNodeSocket *found_socket = this->find_available_socket(name);
BLI_assert(found_socket != nullptr); /* There should always be available socket for the name. */
const CPPType *cpp_type = bke::custom_data_type_to_cpp_type(type);
const int64_t domain_size = component.attribute_domain_size(domain);
if (default_value == nullptr) {
default_value = cpp_type->default_value();
}
if (found_socket == nullptr) {
return std::make_unique<fn::GVArray_For_SingleValue>(*cpp_type, domain_size, default_value);
}
if (found_socket->type == SOCK_STRING) {
const std::string name = this->get_input<std::string>(found_socket->identifier);
/* Try getting the attribute without the default value. */
GVArrayPtr attribute = component.attribute_try_get_for_read(name, domain, type);
if (attribute) {
return attribute;
}
/* If the attribute doesn't exist, use the default value and output an error message
* (except when the field is empty, to avoid spamming error messages, and not when
* the domain is empty and we don't expect an attribute anyway). */
if (!name.empty() && component.attribute_domain_size(domain) != 0) {
this->error_message_add(NodeWarningType::Error,
TIP_("No attribute with name \"") + name + "\"");
}
return std::make_unique<fn::GVArray_For_SingleValue>(*cpp_type, domain_size, default_value);
}
const DataTypeConversions &conversions = get_implicit_type_conversions();
if (found_socket->type == SOCK_FLOAT) {
const float value = this->get_input<float>(found_socket->identifier);
BUFFER_FOR_CPP_TYPE_VALUE(*cpp_type, buffer);
conversions.convert_to_uninitialized(CPPType::get<float>(), *cpp_type, &value, buffer);
return std::make_unique<fn::GVArray_For_SingleValue>(*cpp_type, domain_size, buffer);
}
if (found_socket->type == SOCK_INT) {
const int value = this->get_input<int>(found_socket->identifier);
BUFFER_FOR_CPP_TYPE_VALUE(*cpp_type, buffer);
conversions.convert_to_uninitialized(CPPType::get<int>(), *cpp_type, &value, buffer);
return std::make_unique<fn::GVArray_For_SingleValue>(*cpp_type, domain_size, buffer);
}
if (found_socket->type == SOCK_VECTOR) {
const float3 value = this->get_input<float3>(found_socket->identifier);
BUFFER_FOR_CPP_TYPE_VALUE(*cpp_type, buffer);
conversions.convert_to_uninitialized(CPPType::get<float3>(), *cpp_type, &value, buffer);
return std::make_unique<fn::GVArray_For_SingleValue>(*cpp_type, domain_size, buffer);
}
if (found_socket->type == SOCK_RGBA) {
const ColorGeometry4f value = this->get_input<ColorGeometry4f>(found_socket->identifier);
BUFFER_FOR_CPP_TYPE_VALUE(*cpp_type, buffer);
conversions.convert_to_uninitialized(
CPPType::get<ColorGeometry4f>(), *cpp_type, &value, buffer);
return std::make_unique<fn::GVArray_For_SingleValue>(*cpp_type, domain_size, buffer);
}
BLI_assert(false);
return std::make_unique<fn::GVArray_For_SingleValue>(*cpp_type, domain_size, default_value);
}
CustomDataType GeoNodeExecParams::get_input_attribute_data_type(
const StringRef name,
const GeometryComponent &component,
const CustomDataType default_type) const
{
const bNodeSocket *found_socket = this->find_available_socket(name);
BLI_assert(found_socket != nullptr); /* There should always be available socket for the name. */
if (found_socket == nullptr) {
return default_type;
}
if (found_socket->type == SOCK_STRING) {
const std::string name = this->get_input<std::string>(found_socket->identifier);
std::optional<AttributeMetaData> info = component.attribute_get_meta_data(name);
if (info) {
return info->data_type;
}
return default_type;
}
if (found_socket->type == SOCK_FLOAT) {
return CD_PROP_FLOAT;
}
if (found_socket->type == SOCK_VECTOR) {
return CD_PROP_FLOAT3;
}
if (found_socket->type == SOCK_RGBA) {
return CD_PROP_COLOR;
}
if (found_socket->type == SOCK_BOOLEAN) {
return CD_PROP_BOOL;
}
BLI_assert(false);
return default_type;
}
/**
* If any of the corresponding input sockets are attributes instead of single values,
* use the highest priority attribute domain from among them.
* Otherwise return the default domain.
*/
AttributeDomain GeoNodeExecParams::get_highest_priority_input_domain(
Span<std::string> names,
const GeometryComponent &component,
const AttributeDomain default_domain) const
{
Vector<AttributeDomain, 8> input_domains;
for (const std::string &name : names) {
const bNodeSocket *found_socket = this->find_available_socket(name);
BLI_assert(found_socket != nullptr); /* A socket should be available socket for the name. */
if (found_socket == nullptr) {
continue;
}
if (found_socket->type == SOCK_STRING) {
const std::string name = this->get_input<std::string>(found_socket->identifier);
std::optional<AttributeMetaData> info = component.attribute_get_meta_data(name);
if (info) {
input_domains.append(info->domain);
}
}
}
if (input_domains.size() > 0) {
return bke::attribute_domain_highest_priority(input_domains);
}
return default_domain;
}
void GeoNodeExecParams::check_input_access(StringRef identifier,
const CPPType *requested_type) const
{
bNodeSocket *found_socket = nullptr;
for (const InputSocketRef *socket : provider_->dnode->inputs()) {
if (socket->identifier() == identifier) {
found_socket = socket->bsocket();
break;
}
}
if (found_socket == nullptr) {
std::cout << "Did not find an input socket with the identifier '" << identifier << "'.\n";
std::cout << "Possible identifiers are: ";
for (const InputSocketRef *socket : provider_->dnode->inputs()) {
if (socket->is_available()) {
std::cout << "'" << socket->identifier() << "', ";
}
}
std::cout << "\n";
BLI_assert_unreachable();
}
else if (found_socket->flag & SOCK_UNAVAIL) {
std::cout << "The socket corresponding to the identifier '" << identifier
<< "' is disabled.\n";
BLI_assert_unreachable();
}
else if (!provider_->can_get_input(identifier)) {
std::cout << "The identifier '" << identifier
<< "' is valid, but there is no value for it anymore.\n";
std::cout << "Most likely it has been extracted before.\n";
BLI_assert_unreachable();
}
else if (requested_type != nullptr) {
const CPPType &expected_type = *socket_cpp_type_get(*found_socket->typeinfo);
if (*requested_type != expected_type) {
std::cout << "The requested type '" << requested_type->name() << "' is incorrect. Expected '"
<< expected_type.name() << "'.\n";
BLI_assert_unreachable();
}
}
}
void GeoNodeExecParams::check_output_access(StringRef identifier, const CPPType &value_type) const
{
bNodeSocket *found_socket = nullptr;
for (const OutputSocketRef *socket : provider_->dnode->outputs()) {
if (socket->identifier() == identifier) {
found_socket = socket->bsocket();
break;
}
}
if (found_socket == nullptr) {
std::cout << "Did not find an output socket with the identifier '" << identifier << "'.\n";
std::cout << "Possible identifiers are: ";
for (const OutputSocketRef *socket : provider_->dnode->outputs()) {
if (socket->is_available()) {
std::cout << "'" << socket->identifier() << "', ";
}
}
std::cout << "\n";
BLI_assert_unreachable();
}
else if (found_socket->flag & SOCK_UNAVAIL) {
std::cout << "The socket corresponding to the identifier '" << identifier
<< "' is disabled.\n";
BLI_assert_unreachable();
}
else if (!provider_->can_set_output(identifier)) {
std::cout << "The identifier '" << identifier << "' has been set already.\n";
BLI_assert_unreachable();
}
else {
const CPPType &expected_type = *socket_cpp_type_get(*found_socket->typeinfo);
if (value_type != expected_type) {
std::cout << "The value type '" << value_type.name() << "' is incorrect. Expected '"
<< expected_type.name() << "'.\n";
BLI_assert_unreachable();
}
}
}
} // namespace blender::nodes
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