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/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
 * under the License.
 */

package org.apache.openjpa.persistence.criteria;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;

import javax.persistence.Tuple;
import javax.persistence.TupleElement;
import javax.persistence.criteria.CompoundSelection;
import javax.persistence.criteria.Expression;
import javax.persistence.criteria.Fetch;
import javax.persistence.criteria.Join;
import javax.persistence.criteria.JoinType;
import javax.persistence.criteria.Order;
import javax.persistence.criteria.Root;
import javax.persistence.criteria.Selection;
import javax.persistence.metamodel.Type.PersistenceType;

import org.apache.openjpa.kernel.FillStrategy;
import org.apache.openjpa.kernel.QueryOperations;
import org.apache.openjpa.kernel.ResultShape;
import org.apache.openjpa.kernel.exps.AbstractExpressionBuilder;
import org.apache.openjpa.kernel.exps.ExpressionFactory;
import org.apache.openjpa.kernel.exps.QueryExpressions;
import org.apache.openjpa.kernel.exps.Value;
import org.apache.openjpa.meta.ClassMetaData;
import org.apache.openjpa.persistence.TupleFactory;
import org.apache.openjpa.persistence.TupleImpl;
import org.apache.openjpa.persistence.meta.AbstractManagedType;
import org.apache.openjpa.persistence.meta.Members;
import org.apache.openjpa.persistence.meta.MetamodelImpl;

/**
 * Converts expressions of a CriteriaQuery to kernel Expression.
 *
 *
 * @author Pinaki Poddar
 * @author Fay Wang
 *
 * @since 2.0.0
 */
class CriteriaExpressionBuilder {

    public QueryExpressions getQueryExpressions(ExpressionFactory factory, CriteriaQueryImpl q) {
        QueryExpressions exps = new QueryExpressions();
        exps.setContexts(q.getContexts());

        evalAccessPaths(exps, factory, q);
        exps.alias = null;      // String
        evalDistinct(exps, factory, q);
        evalFetchJoin(exps, factory, q);
        evalCrossJoinRoots(exps, factory, q);
        evalFilter(exps, factory, q);
        evalGrouping(exps, factory, q);
        evalOrderingAndProjection(exps, factory, q);
        exps.operation = QueryOperations.OP_SELECT;
        exps.range = QueryExpressions.EMPTY_VALUES;
        exps.resultClass = q.getResultType();
        exps.shape = evalResultShape(q);
        exps.parameterTypes = q.getParameterTypes();
        exps.isAggregate();
        return exps;
    }

    protected void evalAccessPaths(QueryExpressions exps, ExpressionFactory factory, CriteriaQueryImpl q) {
        Set metas = new HashSet<>();
        MetamodelImpl metamodel = q.getMetamodel();
        for (Root root : q.getRoots()) {
            metas.add(((AbstractManagedType)root.getModel()).meta);
            for (Join join : root.getJoins()) {
                Class cls = join.getAttribute().getJavaType();
                if (join.getAttribute().isAssociation()) {
                    ClassMetaData meta = metamodel.getRepository().getMetaData(cls, null, true);
                    PersistenceType type = MetamodelImpl.getPersistenceType(meta);
                    if (type == PersistenceType.ENTITY || type == PersistenceType.EMBEDDABLE)
                        metas.add(meta);
                }
            }
        }
        // TODO -- need to handle subqueries

        exps.accessPath = metas.toArray(new ClassMetaData[metas.size()]);
    }

    protected void evalOrderingAndProjection(QueryExpressions exps, ExpressionFactory factory, CriteriaQueryImpl q) {
        Map, Value> exp2Vals = evalOrdering(exps, factory, q);
        evalProjections(exps, factory, q, exp2Vals);
    }

    /**
     * Evaluates the ordering expressions by converting them to kernel values.
     * Sets the ordering fields of kernel QueryExpressions.
     *
     * @param exps kernel QueryExpressions
     * @param factory for kernel expressions
     * @param q a criteria query
     *
     * @return map of kernel values indexed by criteria query expressions that created it.
     * These kernel values are required to be held in a map to avoid recomputing for the
     * same CriteriaQuery Expressions appearing in ordering terms as well as projection
     * term.
     *
     */
    protected Map, Value> evalOrdering(QueryExpressions exps, ExpressionFactory factory,
        CriteriaQueryImpl q) {
        List orders = q.getOrderList();
        MetamodelImpl model = q.getMetamodel();
        int ordercount = (orders == null) ? 0 : orders.size();
        Map, Value> exp2Vals = new HashMap<>();
        exps.ordering = new Value[ordercount];
        exps.orderingClauses = new String[ordercount];
        exps.orderingAliases = new String[ordercount];
        exps.ascending = new boolean[ordercount];
        for (int i = 0; i < ordercount; i++) {
            OrderImpl order = (OrderImpl)orders.get(i);
            ExpressionImpl expr = order.getExpression();
            Value val = Expressions.toValue(expr, factory, q);
            exps.ordering[i] = val;
            String alias = expr.getAlias();
            exps.orderingAliases[i] = alias;
            exps.orderingClauses[i] = "";
            val.setAlias(alias);
            exps.ascending[i] = order.isAscending();
            exp2Vals.put(expr, val);
        }
        return exp2Vals;
    }

    protected void evalGrouping(QueryExpressions exps, ExpressionFactory factory, CriteriaQueryImpl q) {
        //    exps.grouping = null; // Value[]
        //    exps.groupingClauses = null; // String[]
        List> groups = q.getGroupList();
        MetamodelImpl model = q.getMetamodel();
        PredicateImpl having = q.getGroupRestriction();
        if (groups == null)
            return;
        int groupByCount = groups.size();
        exps.grouping = new Value[groupByCount];
        for (int i = 0; i < groupByCount; i++) {
            Expression groupBy = groups.get(i);
            exps.grouping[i] = Expressions.toValue((ExpressionImpl)groupBy, factory, q);;
        }

        exps.having = having == null ? null : having.toKernelExpression(factory, q);
    }

    protected void evalDistinct(QueryExpressions exps, ExpressionFactory factory, CriteriaQueryImpl q) {
        exps.distinct = q.isDistinct() ? QueryExpressions.DISTINCT_TRUE | QueryExpressions.DISTINCT_AUTO
            : QueryExpressions.DISTINCT_FALSE;
     }

    protected void evalCrossJoinRoots(QueryExpressions exps, ExpressionFactory factory, CriteriaQueryImpl q) {
        Set> roots = q.getRoots();
        SubqueryImpl subQuery = q.getDelegator();
        if (subQuery == null || subQuery.getCorrelatedJoins().isEmpty()) {
            q.assertRoot();
            if (roots.size() > 1) { // cross join
                for (Root root : roots) {
                    String alias = q.getAlias(root);
                    Value var = factory.newBoundVariable(alias, AbstractExpressionBuilder.TYPE_OBJECT);
                    var.setMetaData(((AbstractManagedType)root.getModel()).meta);
                    q.registerRoot(root, var);
                }
            }
        }
    }

    protected void evalFilter(QueryExpressions exps, ExpressionFactory factory, CriteriaQueryImpl q) {
        Set> roots = q.getRoots();
        MetamodelImpl model = q.getMetamodel();
        PredicateImpl where = q.getRestriction();
        SubqueryImpl subQuery = q.getDelegator();
        org.apache.openjpa.kernel.exps.Expression filter = null;
        if (subQuery == null || subQuery.getCorrelatedJoins().isEmpty())
            q.assertRoot();

        for (Root root : roots) {
            for (Join join : root.getJoins()) {
                filter = Expressions.and(factory,
                    ((ExpressionImpl)join).toKernelExpression(factory, q), filter);
            }
            ((RootImpl)root).addToContext(factory, model, q);
        }
        if (subQuery != null) {
            Set> corrJoins = subQuery.getCorrelatedJoins();
            for (Join corrJoin : corrJoins) {
                filter = Expressions.and(factory, ((ExpressionImpl)corrJoin)
                    .toKernelExpression(factory, q), filter);
            }
        }

        if (where != null) {
            filter = Expressions.and(factory, where.toKernelExpression(factory, q), filter);
        }
        if (filter == null) {
            filter = factory.emptyExpression();
        }
        exps.filter = filter;
    }

    protected void evalProjections(QueryExpressions exps, ExpressionFactory factory, CriteriaQueryImpl q,
        Map, Value> exp2Vals) {
        List> selections = q.getSelectionList();
        MetamodelImpl model = q.getMetamodel();
        if (q.isDefaultProjection()) {
            exps.projections = new Value[0];
            return ;
        }
        exps.projections = new Value[selections.size()];
        List projections = new ArrayList<>();
        List aliases = new ArrayList<>();
        List clauses = new ArrayList<>();
        getProjections(exps, selections, projections, aliases, clauses, factory, q, model, exp2Vals);
        exps.projections = projections.toArray(new Value[projections.size()]);
        exps.projectionAliases = aliases.toArray(new String[aliases.size()]);
        exps.projectionClauses = clauses.toArray(new String[clauses.size()]);
    }

    /**
     * Scans the projection terms to populate the kernel QueryExpressions projection clauses
     * and aliases.
     *
     * @param exps
     * @param selections
     * @param projections list of kernel values for projections
     * @param aliases list of kernel projection aliases
     * @param clauses list of kernel projection clauses
     * @param factory for kernel expressions
     * @param q a Criteria Query
     * @param model of domain entities
     * @param exp2Vals the evaluated kernel values indexed by the Criteria Expressions
     */
    private void getProjections(QueryExpressions exps, List> selections,
        List projections, List aliases, List clauses,
        ExpressionFactory factory, CriteriaQueryImpl q, MetamodelImpl model,
        Map, Value> exp2Vals) {

        if (selections.size() == 0 && q.getDelegator() != null) { // this is subquery
            Root r = q.getRoot();
            selections = new ArrayList<>(1);
            selections.add(r);
        }
        for (Selection s : selections) {
            if (s.isCompoundSelection()) {
                getProjections(exps, s.getCompoundSelectionItems(), projections, aliases,
                    clauses, factory, q, model, exp2Vals);
            } else {
                Value val = (exp2Vals != null && exp2Vals.containsKey(s)
                        ? exp2Vals.get(s) : ((ExpressionImpl)s).toValue(factory, q));
                String alias = s.getAlias();
                val.setAlias(alias);
                projections.add(val);
                aliases.add(alias);
                clauses.add(alias);
            }
        }
    }

    protected void evalFetchJoin(QueryExpressions exps, ExpressionFactory factory, CriteriaQueryImpl q) {
        List iPaths = new ArrayList<>();
        List oPaths = new ArrayList<>();
        Set> roots = q.getRoots();
        for (Root root : roots) {
            Set fetches = root.getFetches();
            if (fetches == null)
                continue;
            for (Fetch fetch : fetches) {
                String fPath = ((Members.Member)fetch.getAttribute()).fmd.getFullName(false);
                oPaths.add(fPath);
                if (fetch.getJoinType() == JoinType.INNER) {
                   iPaths.add(fPath);
                }
            }
        }
        if (!iPaths.isEmpty()) {
            exps.fetchInnerPaths = iPaths.toArray(new String[iPaths.size()]);
        }
        if (!oPaths.isEmpty()) {
            exps.fetchPaths = oPaths.toArray(new String[oPaths.size()]);
        }
    }

    // ===================================================================================
    // Result Shape processing
    // ===================================================================================

    /**
     * Gets the shape of a selection item. Creates the shape if necessary.
     *
     * @param q the original query
     * @param parent the parent shape that nests this given selection
     * @param s the selection term for which a result shape to be computed
     */
    ResultShape getShape(CriteriaQueryImpl q, ResultShape parent, Selection s) {
        ResultShape result = null;
        Class type = s.getJavaType();
        if (type == null)
            type = Object.class;
        if (s.isCompoundSelection()) {
            CompoundSelection cs = (CompoundSelection)s;
            result = new ResultShape(s.getJavaType(), CompoundSelections.getFillStrategy(cs));
            List> terms = cs.getCompoundSelectionItems();
            for (Selection term : terms) {
                result.nest(getShape(q, result, term));
            }
        } else {
            if (parent.getType().isArray() && q.isMultiselect()) {
                Class componentType = parent.getType().getComponentType();
                if (componentType == Tuple.class) {
                    result = new ResultShape(componentType,
                         new FillStrategy.Factory(new TupleFactory(s), TupleImpl.PUT), false);
                } else {
                    result = new ResultShape(componentType, new FillStrategy.Assign(), true);
                }
            } else {
                result = new ResultShape(type, new FillStrategy.Assign(), true);
            }
        }
        return result;
    }

    /**
     * Builds the result shape by creating shape for the complete result and how it nests each selection terms.
     * The shape varies based on whether the terms were selected based on multiselect() or select().
     */
    private ResultShape evalResultShape(CriteriaQueryImpl q) {
        List> selections = q.getSelectionList();
        Class resultClass = q.getResultType();
        ResultShape result = null;
        if (q.isMultiselect()) {
           result = new ResultShape(resultClass, CompoundSelections.getFillStrategy(q.getSelection()));
           for (Selection term : selections) {
               result.nest(getShape(q, result, term));
           }
        } else { // not multiselect
            FillStrategy strategy = new FillStrategy.Assign();
            if (Tuple.class.isAssignableFrom(resultClass)) {
                TupleFactory factory = new TupleFactory(selections.toArray(new TupleElement[selections.size()]));
                strategy = new FillStrategy.Factory<>(factory,  TupleImpl.PUT);
            }
            result = new ResultShape(resultClass, strategy);
            if (q.getSelectionList() == null) {
                return result;
            }
            if (q.getSelectionList().size() == 1) {
                result = getShape(q, result, q.getSelectionList().get(0));
            } else {
                for (Selection term : q.getSelectionList()) {
                    result.nest(getShape(q, result, term));
                }
            }
        }

        return result;
   }
}




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