Cleanup: Use utility function to find groups in node tree #104465
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@ -2,6 +2,10 @@
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#include "BKE_attribute_math.hh"
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#include "BLI_array.hh"
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#include "BLI_generic_virtual_array.hh"
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#include "BLI_virtual_array.hh"
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#include "NOD_socket_search_link.hh"
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#include "node_geometry_util.hh"
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@ -192,19 +196,19 @@ static void node_gather_link_searches(GatherLinkSearchOpParams ¶ms)
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}
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}
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template<typename T> class AccumulateFieldInput final : public bke::GeometryFieldInput {
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class AccumulateFieldInput final : public bke::GeometryFieldInput {
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private:
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Field<T> input_;
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GField input_;
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Field<int> group_index_;
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eAttrDomain source_domain_;
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AccumulationMode accumulation_mode_;
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public:
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AccumulateFieldInput(const eAttrDomain source_domain,
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Field<T> input,
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GField input,
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Field<int> group_index,
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AccumulationMode accumulation_mode)
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: bke::GeometryFieldInput(CPPType::get<T>(), "Accumulation"),
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: bke::GeometryFieldInput(input.cpp_type(), "Accumulation"),
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input_(input),
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group_index_(group_index),
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source_domain_(source_domain),
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@ -216,7 +220,7 @@ template<typename T> class AccumulateFieldInput final : public bke::GeometryFiel
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const IndexMask /*mask*/) const final
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{
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const AttributeAccessor attributes = *context.attributes();
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const int domain_size = attributes.domain_size(source_domain_);
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const int64_t domain_size = attributes.domain_size(source_domain_);
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if (domain_size == 0) {
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return {};
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}
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@ -227,46 +231,55 @@ template<typename T> class AccumulateFieldInput final : public bke::GeometryFiel
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evaluator.add(input_);
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evaluator.add(group_index_);
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evaluator.evaluate();
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const VArray<T> values = evaluator.get_evaluated<T>(0);
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const GVArray g_values = evaluator.get_evaluated(0);
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const VArray<int> group_indices = evaluator.get_evaluated<int>(1);
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Array<T> accumulations_out(domain_size);
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GVArray g_output;
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if (group_indices.is_single()) {
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T accumulation = T();
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if (accumulation_mode_ == AccumulationMode::Leading) {
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for (const int i : values.index_range()) {
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accumulation = values[i] + accumulation;
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accumulations_out[i] = accumulation;
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}
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}
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else {
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for (const int i : values.index_range()) {
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accumulations_out[i] = accumulation;
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accumulation = values[i] + accumulation;
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}
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}
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}
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else {
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Map<int, T> accumulations;
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if (accumulation_mode_ == AccumulationMode::Leading) {
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for (const int i : values.index_range()) {
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T &accumulation_value = accumulations.lookup_or_add_default(group_indices[i]);
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accumulation_value += values[i];
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accumulations_out[i] = accumulation_value;
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}
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}
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else {
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for (const int i : values.index_range()) {
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T &accumulation_value = accumulations.lookup_or_add_default(group_indices[i]);
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accumulations_out[i] = accumulation_value;
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accumulation_value += values[i];
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}
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}
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}
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attribute_math::convert_to_static_type(g_values.type(), [&](auto dummy) {
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using T = decltype(dummy);
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if constexpr (is_same_any_v<T, int, float, float3>) {
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Array<T> outputs(domain_size);
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const VArray<T> values = g_values.typed<T>();
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return attributes.adapt_domain<T>(
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VArray<T>::ForContainer(std::move(accumulations_out)), source_domain_, context.domain());
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if (group_indices.is_single()) {
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T accumulation = T();
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if (accumulation_mode_ == AccumulationMode::Leading) {
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for (const int i : values.index_range()) {
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accumulation = values[i] + accumulation;
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outputs[i] = accumulation;
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}
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}
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else {
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for (const int i : values.index_range()) {
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outputs[i] = accumulation;
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accumulation = values[i] + accumulation;
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}
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}
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}
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else {
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Map<int, T> accumulations;
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if (accumulation_mode_ == AccumulationMode::Leading) {
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for (const int i : values.index_range()) {
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T &accumulation_value = accumulations.lookup_or_add_default(group_indices[i]);
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accumulation_value += values[i];
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outputs[i] = accumulation_value;
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}
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}
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else {
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for (const int i : values.index_range()) {
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T &accumulation_value = accumulations.lookup_or_add_default(group_indices[i]);
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outputs[i] = accumulation_value;
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accumulation_value += values[i];
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}
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}
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}
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g_output = VArray<T>::ForContainer(std::move(outputs));
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}
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});
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return attributes.adapt_domain(std::move(g_output), source_domain_, context.domain());
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}
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uint64_t hash() const override
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@ -293,15 +306,15 @@ template<typename T> class AccumulateFieldInput final : public bke::GeometryFiel
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}
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};
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template<typename T> class TotalFieldInput final : public bke::GeometryFieldInput {
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class TotalFieldInput final : public bke::GeometryFieldInput {
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private:
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Field<T> input_;
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GField input_;
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Field<int> group_index_;
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eAttrDomain source_domain_;
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public:
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TotalFieldInput(const eAttrDomain source_domain, Field<T> input, Field<int> group_index)
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: bke::GeometryFieldInput(CPPType::get<T>(), "Total Value"),
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TotalFieldInput(const eAttrDomain source_domain, GField input, Field<int> group_index)
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: bke::GeometryFieldInput(input.cpp_type(), "Total Value"),
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input_(input),
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group_index_(group_index),
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source_domain_(source_domain)
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@ -312,7 +325,7 @@ template<typename T> class TotalFieldInput final : public bke::GeometryFieldInpu
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IndexMask /*mask*/) const final
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{
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const AttributeAccessor attributes = *context.attributes();
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const int domain_size = attributes.domain_size(source_domain_);
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const int64_t domain_size = attributes.domain_size(source_domain_);
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if (domain_size == 0) {
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return {};
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}
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@ -323,29 +336,38 @@ template<typename T> class TotalFieldInput final : public bke::GeometryFieldInpu
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evaluator.add(input_);
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evaluator.add(group_index_);
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evaluator.evaluate();
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const VArray<T> values = evaluator.get_evaluated<T>(0);
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const GVArray g_values = evaluator.get_evaluated(0);
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const VArray<int> group_indices = evaluator.get_evaluated<int>(1);
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if (group_indices.is_single()) {
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T accumulation = T();
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for (const int i : values.index_range()) {
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accumulation = values[i] + accumulation;
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GVArray g_outputs;
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attribute_math::convert_to_static_type(g_values.type(), [&](auto dummy) {
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using T = decltype(dummy);
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if constexpr (is_same_any_v<T, int, float, float3>) {
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const VArray<T> values = g_values.typed<T>();
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if (group_indices.is_single()) {
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T accumulation = {};
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for (const int i : values.index_range()) {
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accumulation = values[i] + accumulation;
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}
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g_outputs = VArray<T>::ForSingle(accumulation, domain_size);
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}
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else {
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Map<int, T> accumulations;
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for (const int i : values.index_range()) {
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T &value = accumulations.lookup_or_add_default(group_indices[i]);
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value = value + values[i];
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}
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Array<T> outputs(domain_size);
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for (const int i : values.index_range()) {
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outputs[i] = accumulations.lookup(group_indices[i]);
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}
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g_outputs = VArray<T>::ForContainer(std::move(outputs));
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}
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}
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return VArray<T>::ForSingle(accumulation, domain_size);
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}
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});
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Array<T> accumulations_out(domain_size);
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Map<int, T> accumulations;
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for (const int i : values.index_range()) {
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T &value = accumulations.lookup_or_add_default(group_indices[i]);
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value = value + values[i];
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}
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for (const int i : values.index_range()) {
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accumulations_out[i] = accumulations.lookup(group_indices[i]);
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}
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return attributes.adapt_domain<T>(
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VArray<T>::ForContainer(std::move(accumulations_out)), source_domain_, context.domain());
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return attributes.adapt_domain(std::move(g_outputs), source_domain_, context.domain());
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}
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uint64_t hash() const override
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@ -391,25 +413,24 @@ static void node_geo_exec(GeoNodeExecParams params)
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Field<int> group_index_field = params.extract_input<Field<int>>("Group Index");
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attribute_math::convert_to_static_type(data_type, [&](auto dummy) {
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using T = decltype(dummy);
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if constexpr (std::is_same_v<T, int> || std::is_same_v<T, float> ||
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std::is_same_v<T, float3>) {
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if constexpr (is_same_any_v<T, int, float, float3>) {
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const std::string suffix = " " + identifier_suffix<T>();
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Field<T> input_field = params.extract_input<Field<T>>("Value" + suffix);
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if (params.output_is_required("Leading" + suffix)) {
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params.set_output(
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"Leading" + suffix,
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Field<T>{std::make_shared<AccumulateFieldInput<T>>(
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Field<T>{std::make_shared<AccumulateFieldInput>(
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source_domain, input_field, group_index_field, AccumulationMode::Leading)});
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}
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if (params.output_is_required("Trailing" + suffix)) {
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params.set_output(
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"Trailing" + suffix,
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Field<T>{std::make_shared<AccumulateFieldInput<T>>(
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Field<T>{std::make_shared<AccumulateFieldInput>(
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source_domain, input_field, group_index_field, AccumulationMode::Trailing)});
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}
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if (params.output_is_required("Total" + suffix)) {
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params.set_output("Total" + suffix,
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Field<T>{std::make_shared<TotalFieldInput<T>>(
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Field<T>{std::make_shared<TotalFieldInput>(
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source_domain, input_field, group_index_field)});
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}
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}
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