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// Copyright Vespa.ai. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#include "groupingmanager.h"
#include "groupingsession.h"
#include "groupingcontext.h"
#include <vespa/searchlib/aggregation/fs4hit.h>
#include <vespa/searchlib/expression/attributenode.h>
#include <vespa/vespalib/util/issue.h>
#include <vespa/vespalib/util/stringfmt.h>
#include <vespa/log/log.h>
LOG_SETUP(".groupingmanager");
namespace search::grouping {
using aggregation::Grouping;
using attribute::IAttributeContext;
using vespalib::Issue;
using vespalib::make_string_short::fmt;
//-----------------------------------------------------------------------------
GroupingManager::GroupingManager(GroupingContext & groupingContext)
: _groupingContext(groupingContext)
{
}
GroupingManager::~GroupingManager() = default;
using search::expression::ExpressionNode;
using search::expression::AttributeNode;
using search::expression::ConfigureStaticParams;
using search::aggregation::Grouping;
using search::aggregation::GroupingLevel;
bool GroupingManager::empty() const {
return _groupingContext.getGroupingList().empty();
}
void
GroupingManager::init(const IAttributeContext &attrCtx)
{
GroupingContext::GroupingList list;
GroupingContext::GroupingList &groupingList(_groupingContext.getGroupingList());
for (size_t i = 0; i < groupingList.size(); ++i) {
Grouping &grouping = *groupingList[i];
try {
Grouping::GroupingLevelList &levels = grouping.levels();
for (size_t k = grouping.getFirstLevel(); k <= grouping.getLastLevel() &&
k < levels.size(); k++) {
GroupingLevel & level(levels[k]);
ExpressionNode & en = *level.getExpression().getRoot();
if (en.inherits(AttributeNode::classId)) {
AttributeNode & an = static_cast<AttributeNode &>(en);
an.enableEnumOptimization(true);
}
}
ConfigureStaticParams stuff(&attrCtx, nullptr, _groupingContext.enableNestedMultivalueGrouping());
grouping.configureStaticStuff(stuff);
list.push_back(groupingList[i]);
} catch (const std::exception & e) {
Issue::report("Could not locate attribute for grouping number %ld : %s. Ignoring this grouping.", i, e.what());
}
}
std::swap(list, groupingList);
}
void
GroupingManager::groupInRelevanceOrder(const RankedHit *searchResults, uint32_t binSize)
{
_groupingContext.groupInRelevanceOrder(searchResults, binSize);
}
void
GroupingManager::groupUnordered(const RankedHit *searchResults, uint32_t binSize, const search::BitVector * overflow)
{
_groupingContext.groupUnordered(searchResults, binSize, overflow);
}
void
GroupingManager::merge(GroupingContext &ctx)
{
GroupingContext::GroupingList &list_a(_groupingContext.getGroupingList());
GroupingContext::GroupingList &list_b(ctx.getGroupingList());
LOG_ASSERT(list_a.size() == list_b.size());
for (size_t i = 0; i < list_a.size(); ++i) {
Grouping &a = *list_a[i];
Grouping &b = *list_b[i];
LOG_ASSERT(a.getId() == b.getId());
a.merge(b);
}
}
void
GroupingManager::prune()
{
GroupingContext::GroupingList &groupingList(_groupingContext.getGroupingList());
for (size_t i = 0; i < groupingList.size(); ++i) {
Grouping &g = *groupingList[i];
g.postMerge();
g.sortById();
}
}
void
GroupingManager::convertToGlobalId(const search::IDocumentMetaStore &metaStore)
{
GroupingContext::GroupingList & groupingList = _groupingContext.getGroupingList();
for (size_t i = 0; i < groupingList.size(); ++i) {
Grouping & g = *groupingList[i];
g.convertToGlobalId(metaStore);
LOG(debug, "convertToGlobalId: %s", g.asString().c_str());
}
}
}
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