Examples with Domain io.trino.spi.predicate.Domain used on opensource projects

Example 1 with Domain

use of io.trino.spi.predicate.Domain in project trino by trinodb.

the class ColumnJdbcTable method applyFilter.

@Override
public TupleDomain<ColumnHandle> applyFilter(ConnectorSession connectorSession, Constraint constraint) {
    TupleDomain<ColumnHandle> tupleDomain = constraint.getSummary();
    if (tupleDomain.isNone() || constraint.predicate().isEmpty()) {
        return tupleDomain;
    }
    Predicate<Map<ColumnHandle, NullableValue>> predicate = constraint.predicate().get();
    Set<ColumnHandle> predicateColumns = constraint.getPredicateColumns().orElseThrow(() -> new VerifyException("columns not present for a predicate"));
    boolean hasSchemaPredicate = predicateColumns.contains(TABLE_SCHEMA_COLUMN);
    boolean hasTablePredicate = predicateColumns.contains(TABLE_NAME_COLUMN);
    if (!hasSchemaPredicate && !hasTablePredicate) {
        // No filter on schema name and table name at all.
        return tupleDomain;
    }
    Session session = ((FullConnectorSession) connectorSession).getSession();
    Optional<String> catalogFilter = tryGetSingleVarcharValue(tupleDomain, TABLE_CATALOG_COLUMN);
    Optional<String> schemaFilter = tryGetSingleVarcharValue(tupleDomain, TABLE_SCHEMA_COLUMN);
    Optional<String> tableFilter = tryGetSingleVarcharValue(tupleDomain, TABLE_NAME_COLUMN);
    if (schemaFilter.isPresent() && tableFilter.isPresent()) {
        // No need to narrow down the domain.
        return tupleDomain;
    }
    List<String> catalogs = listCatalogs(session, metadata, accessControl, catalogFilter).keySet().stream().filter(catalogName -> predicate.test(ImmutableMap.of(TABLE_CATALOG_COLUMN, toNullableValue(catalogName)))).collect(toImmutableList());
    List<CatalogSchemaName> schemas = catalogs.stream().flatMap(catalogName -> listSchemas(session, metadata, accessControl, catalogName, schemaFilter).stream().filter(schemaName -> !hasSchemaPredicate || predicate.test(ImmutableMap.of(TABLE_CATALOG_COLUMN, toNullableValue(catalogName), TABLE_SCHEMA_COLUMN, toNullableValue(schemaName)))).map(schemaName -> new CatalogSchemaName(catalogName, schemaName))).collect(toImmutableList());
    if (!hasTablePredicate) {
        return TupleDomain.withColumnDomains(ImmutableMap.<ColumnHandle, Domain>builder().put(TABLE_CATALOG_COLUMN, schemas.stream().map(CatalogSchemaName::getCatalogName).collect(toVarcharDomain()).simplify(MAX_DOMAIN_SIZE)).put(TABLE_SCHEMA_COLUMN, schemas.stream().map(CatalogSchemaName::getSchemaName).collect(toVarcharDomain()).simplify(MAX_DOMAIN_SIZE)).buildOrThrow());
    }
    List<CatalogSchemaTableName> tables = schemas.stream().flatMap(schema -> {
        QualifiedTablePrefix tablePrefix = tableFilter.isPresent() ? new QualifiedTablePrefix(schema.getCatalogName(), schema.getSchemaName(), tableFilter.get()) : new QualifiedTablePrefix(schema.getCatalogName(), schema.getSchemaName());
        return listTables(session, metadata, accessControl, tablePrefix).stream().filter(schemaTableName -> predicate.test(ImmutableMap.of(TABLE_CATALOG_COLUMN, toNullableValue(schema.getCatalogName()), TABLE_SCHEMA_COLUMN, toNullableValue(schemaTableName.getSchemaName()), TABLE_NAME_COLUMN, toNullableValue(schemaTableName.getTableName())))).map(schemaTableName -> new CatalogSchemaTableName(schema.getCatalogName(), schemaTableName.getSchemaName(), schemaTableName.getTableName()));
    }).collect(toImmutableList());
    return TupleDomain.withColumnDomains(ImmutableMap.<ColumnHandle, Domain>builder().put(TABLE_CATALOG_COLUMN, tables.stream().map(CatalogSchemaTableName::getCatalogName).collect(toVarcharDomain()).simplify(MAX_DOMAIN_SIZE)).put(TABLE_SCHEMA_COLUMN, tables.stream().map(catalogSchemaTableName -> catalogSchemaTableName.getSchemaTableName().getSchemaName()).collect(toVarcharDomain()).simplify(MAX_DOMAIN_SIZE)).put(TABLE_NAME_COLUMN, tables.stream().map(catalogSchemaTableName -> catalogSchemaTableName.getSchemaTableName().getTableName()).collect(toVarcharDomain()).simplify(MAX_DOMAIN_SIZE)).buildOrThrow());
}

Example 2 with Domain

use of io.trino.spi.predicate.Domain in project trino by trinodb.

the class FilterUtil method tryGetSingleVarcharValue.

public static <T> Optional<String> tryGetSingleVarcharValue(TupleDomain<T> constraint, T index) {
    if (constraint.isNone()) {
        return Optional.empty();
    }
    Domain domain = constraint.getDomains().get().get(index);
    if ((domain == null) || !domain.isSingleValue()) {
        return Optional.empty();
    }
    Object value = domain.getSingleValue();
    return Optional.of(((Slice) value).toStringUtf8());
}

Example 3 with Domain

use of io.trino.spi.predicate.Domain in project trino by trinodb.

the class DynamicFilterSourceOperator method finish.

@Override
public void finish() {
    if (finished) {
        // NOTE: finish() may be called multiple times (see comment at Driver::processInternal).
        return;
    }
    finished = true;
    ImmutableMap.Builder<DynamicFilterId, Domain> domainsBuilder = ImmutableMap.builder();
    if (valueSets == null) {
        if (minValues == null) {
            // else it was notified with 'all' in handleMinMaxCollectionLimitExceeded
            return;
        }
        // valueSets became too large, create TupleDomain from min/max values
        for (Integer channelIndex : minMaxChannels) {
            Type type = channels.get(channelIndex).type;
            if (minValues[channelIndex] == null) {
                // all values were null
                domainsBuilder.put(channels.get(channelIndex).filterId, Domain.none(type));
                continue;
            }
            Object min = readNativeValue(type, minValues[channelIndex], 0);
            Object max = readNativeValue(type, maxValues[channelIndex], 0);
            Domain domain = Domain.create(ValueSet.ofRanges(range(type, min, true, max, true)), false);
            domainsBuilder.put(channels.get(channelIndex).filterId, domain);
        }
        minValues = null;
        maxValues = null;
        dynamicPredicateConsumer.accept(TupleDomain.withColumnDomains(domainsBuilder.buildOrThrow()));
        return;
    }
    for (int channelIndex = 0; channelIndex < channels.size(); ++channelIndex) {
        Block block = blockBuilders[channelIndex].build();
        Type type = channels.get(channelIndex).type;
        domainsBuilder.put(channels.get(channelIndex).filterId, convertToDomain(type, block));
    }
    valueSets = null;
    blockBuilders = null;
    dynamicPredicateConsumer.accept(TupleDomain.withColumnDomains(domainsBuilder.buildOrThrow()));
}

Example 4 with Domain

use of io.trino.spi.predicate.Domain in project trino by trinodb.

the class DomainTranslator method toPredicate.

private Expression toPredicate(Session session, Domain domain, SymbolReference reference) {
    if (domain.getValues().isNone()) {
        return domain.isNullAllowed() ? new IsNullPredicate(reference) : FALSE_LITERAL;
    }
    if (domain.getValues().isAll()) {
        return domain.isNullAllowed() ? TRUE_LITERAL : new NotExpression(new IsNullPredicate(reference));
    }
    List<Expression> disjuncts = new ArrayList<>();
    disjuncts.addAll(domain.getValues().getValuesProcessor().transform(ranges -> extractDisjuncts(session, domain.getType(), ranges, reference), discreteValues -> extractDisjuncts(session, domain.getType(), discreteValues, reference), allOrNone -> {
        throw new IllegalStateException("Case should not be reachable");
    }));
    // Add nullability disjuncts
    if (domain.isNullAllowed()) {
        disjuncts.add(new IsNullPredicate(reference));
    }
    return combineDisjunctsWithDefault(plannerContext.getMetadata(), disjuncts, TRUE_LITERAL);
}

Example 5 with Domain

use of io.trino.spi.predicate.Domain in project trino by trinodb.

the class PushPredicateIntoTableScan method pushFilterIntoTableScan.

public static Optional<PlanNode> pushFilterIntoTableScan(FilterNode filterNode, TableScanNode node, boolean pruneWithPredicateExpression, Session session, SymbolAllocator symbolAllocator, PlannerContext plannerContext, TypeAnalyzer typeAnalyzer, StatsProvider statsProvider, DomainTranslator domainTranslator) {
    if (!isAllowPushdownIntoConnectors(session)) {
        return Optional.empty();
    }
    SplitExpression splitExpression = splitExpression(plannerContext, filterNode.getPredicate());
    DomainTranslator.ExtractionResult decomposedPredicate = DomainTranslator.getExtractionResult(plannerContext, session, splitExpression.getDeterministicPredicate(), symbolAllocator.getTypes());
    TupleDomain<ColumnHandle> newDomain = decomposedPredicate.getTupleDomain().transformKeys(node.getAssignments()::get).intersect(node.getEnforcedConstraint());
    Map<NodeRef<Expression>, Type> remainingExpressionTypes = typeAnalyzer.getTypes(session, symbolAllocator.getTypes(), decomposedPredicate.getRemainingExpression());
    Optional<ConnectorExpression> connectorExpression = new ConnectorExpressionTranslator.SqlToConnectorExpressionTranslator(session, remainingExpressionTypes, plannerContext).process(decomposedPredicate.getRemainingExpression());
    Map<String, ColumnHandle> connectorExpressionAssignments = connectorExpression.map(ignored -> node.getAssignments().entrySet().stream().collect(toImmutableMap(entry -> entry.getKey().getName(), Map.Entry::getValue))).orElse(ImmutableMap.of());
    Map<ColumnHandle, Symbol> assignments = ImmutableBiMap.copyOf(node.getAssignments()).inverse();
    Constraint constraint;
    // use evaluator only when there is some predicate which could not be translated into tuple domain
    if (pruneWithPredicateExpression && !TRUE_LITERAL.equals(decomposedPredicate.getRemainingExpression())) {
        LayoutConstraintEvaluator evaluator = new LayoutConstraintEvaluator(plannerContext, typeAnalyzer, session, symbolAllocator.getTypes(), node.getAssignments(), combineConjuncts(plannerContext.getMetadata(), splitExpression.getDeterministicPredicate(), // which would be expensive to evaluate in the call to isCandidate below.
        domainTranslator.toPredicate(session, newDomain.simplify().transformKeys(assignments::get))));
        constraint = new Constraint(newDomain, connectorExpression.orElse(TRUE), connectorExpressionAssignments, evaluator::isCandidate, evaluator.getArguments());
    } else {
        // Currently, invoking the expression interpreter is very expensive.
        // TODO invoke the interpreter unconditionally when the interpreter becomes cheap enough.
        constraint = new Constraint(newDomain, connectorExpression.orElse(TRUE), connectorExpressionAssignments);
    }
    // check if new domain is wider than domain already provided by table scan
    if (constraint.predicate().isEmpty() && // TODO do we need to track enforced ConnectorExpression in TableScanNode?
    TRUE.equals(connectorExpression.orElse(TRUE)) && newDomain.contains(node.getEnforcedConstraint())) {
        Expression resultingPredicate = createResultingPredicate(plannerContext, session, symbolAllocator, typeAnalyzer, splitExpression.getDynamicFilter(), TRUE_LITERAL, splitExpression.getNonDeterministicPredicate(), decomposedPredicate.getRemainingExpression());
        if (!TRUE_LITERAL.equals(resultingPredicate)) {
            return Optional.of(new FilterNode(filterNode.getId(), node, resultingPredicate));
        }
        return Optional.of(node);
    }
    if (newDomain.isNone()) {
        // to turn the subtree into a Values node
        return Optional.of(new ValuesNode(node.getId(), node.getOutputSymbols(), ImmutableList.of()));
    }
    Optional<ConstraintApplicationResult<TableHandle>> result = plannerContext.getMetadata().applyFilter(session, node.getTable(), constraint);
    if (result.isEmpty()) {
        return Optional.empty();
    }
    TableHandle newTable = result.get().getHandle();
    TableProperties newTableProperties = plannerContext.getMetadata().getTableProperties(session, newTable);
    Optional<TablePartitioning> newTablePartitioning = newTableProperties.getTablePartitioning();
    if (newTableProperties.getPredicate().isNone()) {
        return Optional.of(new ValuesNode(node.getId(), node.getOutputSymbols(), ImmutableList.of()));
    }
    TupleDomain<ColumnHandle> remainingFilter = result.get().getRemainingFilter();
    Optional<ConnectorExpression> remainingConnectorExpression = result.get().getRemainingExpression();
    boolean precalculateStatistics = result.get().isPrecalculateStatistics();
    verifyTablePartitioning(session, plannerContext.getMetadata(), node, newTablePartitioning);
    TableScanNode tableScan = new TableScanNode(node.getId(), newTable, node.getOutputSymbols(), node.getAssignments(), computeEnforced(newDomain, remainingFilter), // TODO (https://github.com/trinodb/trino/issues/8144) distinguish between predicate pushed down and remaining
    deriveTableStatisticsForPushdown(statsProvider, session, precalculateStatistics, filterNode), node.isUpdateTarget(), node.getUseConnectorNodePartitioning());
    Expression remainingDecomposedPredicate;
    if (remainingConnectorExpression.isEmpty() || remainingConnectorExpression.equals(connectorExpression)) {
        remainingDecomposedPredicate = decomposedPredicate.getRemainingExpression();
    } else {
        Map<String, Symbol> variableMappings = assignments.values().stream().collect(toImmutableMap(Symbol::getName, Function.identity()));
        Expression translatedExpression = ConnectorExpressionTranslator.translate(session, remainingConnectorExpression.get(), plannerContext, variableMappings, new LiteralEncoder(plannerContext));
        if (connectorExpression.isEmpty()) {
            remainingDecomposedPredicate = ExpressionUtils.combineConjuncts(plannerContext.getMetadata(), translatedExpression, decomposedPredicate.getRemainingExpression());
        } else {
            remainingDecomposedPredicate = translatedExpression;
        }
    }
    Expression resultingPredicate = createResultingPredicate(plannerContext, session, symbolAllocator, typeAnalyzer, splitExpression.getDynamicFilter(), domainTranslator.toPredicate(session, remainingFilter.transformKeys(assignments::get)), splitExpression.getNonDeterministicPredicate(), remainingDecomposedPredicate);
    if (!TRUE_LITERAL.equals(resultingPredicate)) {
        return Optional.of(new FilterNode(filterNode.getId(), tableScan, resultingPredicate));
    }
    return Optional.of(tableScan);
}