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// Copyright Yahoo. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#pragma once
#include "multienumattribute.h"
#include "numericbase.h"
#include "numeric_range_matcher.h"
#include "primitivereader.h"
#include "search_context.h"
namespace search {
/**
* Implementation of multi value numeric attribute that uses an underlying enum store
* to store unique numeric values and a multi value mapping to store enum indices for each document.
* This class is used for both array and weighted set types.
*
* B: EnumAttribute<BaseClass>
* M: MultiValueType (MultiValueMapping template argument)
*/
template <typename B, typename M>
class MultiValueNumericEnumAttribute : public MultiValueEnumAttribute<B, M> {
public:
using T = typename B::BaseClass::BaseType;
protected:
using DocId = typename B::BaseClass::DocId;
using EnumHandle = typename B::BaseClass::EnumHandle;
using EnumIndex = IEnumStore::Index;
using EnumVector = IEnumStore::EnumVector;
using LoadedNumericValueT = typename B::BaseClass::LoadedNumericValueT;
using LoadedVector = typename B::BaseClass::LoadedVector;
using LoadedVectorR = SequentialReadModifyWriteVector<LoadedNumericValueT>;
using QueryTermSimpleUP = AttributeVector::QueryTermSimpleUP;
using Weighted = typename B::BaseClass::Weighted;
using WeightedEnum = typename B::BaseClass::WeightedEnum;
using WeightedFloat = typename B::BaseClass::WeightedFloat;
using WeightedIndex = typename MultiValueEnumAttribute<B, M>::MultiValueType;
using WeightedIndexArrayRef = typename MultiValueEnumAttribute<B, M>::MultiValueArrayRef;
using WeightedInt = typename B::BaseClass::WeightedInt;
using largeint_t = typename B::BaseClass::largeint_t;
template <bool asc>
long on_serialize_for_sort(DocId doc, void* serTo, long available) const;
long onSerializeForAscendingSort(DocId doc, void* serTo, long available, const common::BlobConverter* bc) const override;
long onSerializeForDescendingSort(DocId doc, void* serTo, long available, const common::BlobConverter* bc) const override;
public:
MultiValueNumericEnumAttribute(const vespalib::string & baseFileName, const AttributeVector::Config & cfg);
bool onLoad(vespalib::Executor *executor) override;
bool onLoadEnumerated(ReaderBase &attrReader);
std::unique_ptr<attribute::SearchContext>
getSearch(QueryTermSimpleUP term, const attribute::SearchContextParams & params) const override;
//-------------------------------------------------------------------------
// Attribute read API
//-------------------------------------------------------------------------
T get(DocId doc) const override {
WeightedIndexArrayRef indices(this->_mvMapping.get(doc));
if (indices.size() == 0) {
return T();
} else {
return this->_enumStore.get_value(multivalue::get_value_ref(indices[0]).load_acquire());
}
}
largeint_t getInt(DocId doc) const override {
return static_cast<largeint_t>(get(doc));
}
double getFloat(DocId doc) const override {
return static_cast<double>(get(doc));
}
template <typename BufferType>
uint32_t getHelper(DocId doc, BufferType * buffer, uint32_t sz) const {
WeightedIndexArrayRef indices(this->_mvMapping.get(doc));
uint32_t valueCount = indices.size();
for(uint32_t i = 0, m = std::min(sz, valueCount); i < m; i++) {
buffer[i] = static_cast<BufferType>(this->_enumStore.get_value(multivalue::get_value_ref(indices[i]).load_acquire()));
}
return valueCount;
}
uint32_t get(DocId doc, largeint_t * v, uint32_t sz) const override {
return getHelper(doc, v, sz);
}
uint32_t get(DocId doc, double * v, uint32_t sz) const override {
return getHelper(doc, v, sz);
}
template <typename WeightedType, typename ValueType>
uint32_t getWeightedHelper(DocId doc, WeightedType * buffer, uint32_t sz) const {
WeightedIndexArrayRef indices(this->_mvMapping.get(doc));
uint32_t valueCount = indices.size();
for (uint32_t i = 0, m = std::min(sz, valueCount); i < m; ++i) {
buffer[i] = WeightedType(static_cast<ValueType>(this->_enumStore.get_value(multivalue::get_value_ref(indices[i]).load_acquire())), multivalue::get_weight(indices[i]));
}
return valueCount;
}
uint32_t get(DocId doc, WeightedInt * v, uint32_t sz) const override {
return getWeightedHelper<WeightedInt, largeint_t>(doc, v, sz);
}
uint32_t get(DocId doc, WeightedFloat * v, uint32_t sz) const override {
return getWeightedHelper<WeightedFloat, double>(doc, v, sz);
}
// Implements attribute::IMultiValueAttribute
const attribute::IArrayReadView<T>* make_read_view(attribute::IMultiValueAttribute::ArrayTag<T>, vespalib::Stash& stash) const override;
const attribute::IWeightedSetReadView<T>* make_read_view(attribute::IMultiValueAttribute::WeightedSetTag<T>, vespalib::Stash& stash) const override;
private:
using AttributeReader = PrimitiveReader<typename B::LoadedValueType>;
void loadAllAtOnce(AttributeReader & attrReader, size_t numDocs, size_t numValues);
};
} // namespace search
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