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Xodus is pure Java transactional schema-less embedded database
/**
* Copyright 2010 - 2016 JetBrains s.r.o.
*
* Licensed 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 jetbrains.exodus.query;
import jetbrains.exodus.entitystore.Entity;
import jetbrains.exodus.entitystore.EntityIterable;
import jetbrains.exodus.entitystore.PersistentEntityStoreImpl;
import jetbrains.exodus.entitystore.iterate.EntityIterableBase;
import jetbrains.exodus.entitystore.iterate.EntityIteratorBase;
import jetbrains.exodus.entitystore.iterate.SingleEntityIterable;
import jetbrains.exodus.query.metadata.AssociationEndMetaData;
import jetbrains.exodus.query.metadata.EntityMetaData;
import jetbrains.exodus.query.metadata.ModelMetaData;
import org.jetbrains.annotations.NotNull;
import org.jetbrains.annotations.Nullable;
import java.util.Collection;
import java.util.Iterator;
@SuppressWarnings("UnusedParameters")
public class QueryEngine {
private final ModelMetaData mmd;
private final PersistentEntityStoreImpl persistentStore;
private final UniqueKeyIndicesEngine ukiEngine;
private SortEngine sortEngine;
public QueryEngine(final ModelMetaData mmd, final PersistentEntityStoreImpl persistentStore) {
this.mmd = mmd;
this.persistentStore = persistentStore;
ukiEngine = new UniqueKeyIndicesEngine(persistentStore);
}
protected Iterable inMemorySelectDistinct(Iterable it, final String linkName) {
throw new UnsupportedOperationException("NOT IMPLEMENTED YET");
}
protected Iterable inMemorySelectManyDistinct(Iterable it, final String linkName) {
throw new UnsupportedOperationException("NOT IMPLEMENTED YET");
}
protected Iterable inMemoryIntersect(Iterable left, Iterable right) {
throw new UnsupportedOperationException("NOT IMPLEMENTED YET");
}
protected Iterable inMemoryUnion(Iterable left, Iterable right) {
throw new UnsupportedOperationException("NOT IMPLEMENTED YET");
}
protected Iterable inMemoryConcat(Iterable left, Iterable right) {
throw new UnsupportedOperationException("NOT IMPLEMENTED YET");
}
protected Iterable inMemoryExclude(Iterable left, Iterable right) {
throw new UnsupportedOperationException("NOT IMPLEMENTED YET");
}
public ModelMetaData getModelMetaData() {
return mmd;
}
public PersistentEntityStoreImpl getPersistentStore() {
return persistentStore;
}
public UniqueKeyIndicesEngine getUniqueKeyIndicesEngine() {
return ukiEngine;
}
public SortEngine getSortEngine() {
return sortEngine;
}
public void setSortEngine(SortEngine sortEngine) {
this.sortEngine = sortEngine;
}
protected void assertOperational() {
}
protected boolean isWrapped(@Nullable Iterable it) {
return true;
}
@NotNull
protected EntityIterable wrap(@NotNull EntityIterable it) {
return it;
}
@Nullable
protected Iterable wrap(@NotNull Entity entity) {
return new SingleEntityIterable(persistentStore.getAndCheckCurrentTransaction(), entity.getId());
}
public boolean isPersistentIterable(Iterable it) {
return it instanceof EntityIterable;
}
public TreeKeepingEntityIterable queryGetAll(String entityType) {
return query(null, entityType, NodeFactory.all());
}
public TreeKeepingEntityIterable query(@NotNull String entityType, @NotNull final NodeBase tree) {
return query(null, entityType, tree);
}
public TreeKeepingEntityIterable query(@Nullable final Iterable instance, @NotNull String entityType, @NotNull final NodeBase tree) {
return new TreeKeepingEntityIterable(instance, entityType, tree, this);
}
public Iterable intersect(Iterable left, Iterable right) {
if (left == right) {
return left;
}
if (isEmptyIterable(left) || isEmptyIterable(right)) {
return EntityIterableBase.EMPTY;
}
if (left instanceof TreeKeepingEntityIterable) {
final TreeKeepingEntityIterable l = (TreeKeepingEntityIterable) left;
final String leftType = l.getEntityType();
if (right instanceof TreeKeepingEntityIterable) {
final TreeKeepingEntityIterable r = (TreeKeepingEntityIterable) right;
if (l.getInstance() == r.getInstance()) {
final String rightType = r.getEntityType();
if (Utils.isTypeOf(leftType, rightType, mmd)) {
return new TreeKeepingEntityIterable(r.getInstance(), leftType, new And(l.getTree(), r.getTree()), l.annotatedTree, r.annotatedTree, this);
} else if (Utils.isTypeOf(rightType, leftType, mmd)) {
return new TreeKeepingEntityIterable(r.getInstance(), rightType, new And(l.getTree(), r.getTree()), l.annotatedTree, r.annotatedTree, this);
}
}
}
}
String staticType = null;
if (left instanceof StaticTypedEntityIterable) {
final StaticTypedEntityIterable l = (StaticTypedEntityIterable) left;
final String leftType = l.getEntityType();
if (right instanceof StaticTypedEntityIterable) {
final StaticTypedEntityIterable r = (StaticTypedEntityIterable) right;
final String rightType = r.getEntityType();
if (Utils.isTypeOf(rightType, leftType, mmd)) {
staticType = rightType;
} else if (Utils.isTypeOf(leftType, rightType, mmd)) {
staticType = leftType;
}
if (leftType.equals(rightType)) {
if (isGetAllTree(l)) {
return new ExcludeNullStaticTypedEntityIterable(rightType, r, this);
}
if (isGetAllTree(r)) {
return new ExcludeNullStaticTypedEntityIterable(leftType, l, this);
}
}
}
}
right = instantiateAndAdjust(right);
left = instantiateAndAdjust(left);
final Iterable result = intersectNonTrees(left, right);
return staticType != null ? new StaticTypedIterableDecorator(staticType, result, this) : result;
}
public Iterable union(Iterable left, Iterable right) {
if (left == right) {
return left;
}
if (isEmptyIterable(left)) {
return right;
}
if (isEmptyIterable(right)) {
return left;
}
if (left instanceof TreeKeepingEntityIterable) {
final TreeKeepingEntityIterable l = (TreeKeepingEntityIterable) left;
String leftType = l.getEntityType();
if (right instanceof TreeKeepingEntityIterable) {
final TreeKeepingEntityIterable r = (TreeKeepingEntityIterable) right;
if (l.getInstance() == r.getInstance() && leftType.equals(r.getEntityType())) {
return new TreeKeepingEntityIterable(r.getInstance(), leftType, new Or(l.getTree(), r.getTree()), l.annotatedTree, r.annotatedTree, this);
}
}
}
String staticType = null;
if (left instanceof StaticTypedEntityIterable) {
final StaticTypedEntityIterable l = (StaticTypedEntityIterable) left;
final String leftType = l.getEntityType();
if (right instanceof StaticTypedEntityIterable) {
final StaticTypedEntityIterable r = (StaticTypedEntityIterable) right;
final String rightType = r.getEntityType();
if (leftType.equals(rightType)) {
staticType = rightType;
if (isGetAllTree(l)) {
return new AddNullStaticTypedEntityIterable(staticType, l, r, this);
}
if (isGetAllTree(r)) {
return new AddNullStaticTypedEntityIterable(staticType, r, l, this);
}
}
}
}
right = instantiateAndAdjust(right);
left = instantiateAndAdjust(left);
final Iterable result = unionNonTrees(left, right);
return staticType != null ? new StaticTypedIterableDecorator(staticType, result, this) : result;
}
public Iterable concat(Iterable left, Iterable right) {
if (isEmptyIterable(left)) {
return right;
}
if (isEmptyIterable(right)) {
return left;
}
if (left instanceof TreeKeepingEntityIterable) {
final TreeKeepingEntityIterable l = (TreeKeepingEntityIterable) left;
String leftType = l.getEntityType();
if (right instanceof TreeKeepingEntityIterable) {
final TreeKeepingEntityIterable r = (TreeKeepingEntityIterable) right;
if (l.getInstance() == r.getInstance() && leftType.equals(r.getEntityType())) {
return new TreeKeepingEntityIterable(r.getInstance(), leftType, new Concat(l.getTree(), r.getTree()),
l.annotatedTree, r.annotatedTree, this);
}
}
}
String staticType = null;
if (left instanceof StaticTypedEntityIterable) {
final String leftType = ((StaticTypedEntityIterable) left).getEntityType();
if (right instanceof StaticTypedEntityIterable) {
final String rightType = ((StaticTypedEntityIterable) right).getEntityType();
if (leftType.equals(rightType)) {
staticType = rightType;
}
}
}
right = instantiateAndAdjust(right);
left = instantiateAndAdjust(left);
final Iterable result = concatNonTrees(left, right);
return staticType != null ? new StaticTypedIterableDecorator(staticType, result, this) : result;
}
public Iterable exclude(Iterable left, Iterable right) {
if (isEmptyIterable(left) || left == right) {
return EntityIterableBase.EMPTY;
}
if (isEmptyIterable(right)) {
return left;
}
if (left instanceof TreeKeepingEntityIterable) {
final TreeKeepingEntityIterable l = (TreeKeepingEntityIterable) left;
String leftType = l.getEntityType();
if (right instanceof TreeKeepingEntityIterable) {
final TreeKeepingEntityIterable r = (TreeKeepingEntityIterable) right;
if (l.getInstance() == r.getInstance() && leftType.equals(r.getEntityType())) {
return new TreeKeepingEntityIterable(r.getInstance(), leftType, new Minus(l.getTree(), r.getTree()), l.annotatedTree, r.annotatedTree, this);
}
}
}
String staticType = null;
if (left instanceof StaticTypedEntityIterable) {
final String leftType = ((StaticTypedEntityIterable) left).getEntityType();
if (right instanceof StaticTypedEntityIterable) {
final String rightType = ((StaticTypedEntityIterable) right).getEntityType();
if (leftType.equals(rightType)) {
staticType = rightType;
}
}
}
right = instantiateAndAdjust(right);
left = instantiateAndAdjust(left);
final Iterable result = excludeNonTrees(left, right);
return staticType != null ? new StaticTypedIterableDecorator(staticType, result, this) : result;
}
public Iterable selectDistinct(Iterable it, final String linkName) {
if (it == null) {
return EntityIterableBase.EMPTY;
}
if (mmd != null) {
if (it instanceof StaticTypedEntityIterable) {
final StaticTypedEntityIterable ktei = (StaticTypedEntityIterable) it;
it = toEntityIterable(it);
if (isPersistentIterable(it)) {
final String entityType = ktei.getEntityType();
final EntityMetaData emd = mmd.getEntityMetaData(entityType);
if (emd != null) {
final AssociationEndMetaData aemd = emd.getAssociationEndMetaData(linkName);
if (aemd != null) {
final String resultType = aemd.getOppositeEntityMetaData().getType();
return new StaticTypedIterableDecorator(resultType,
selectDistinctImpl((EntityIterableBase) it, linkName), this);
}
}
}
} else if (isPersistentIterable(it)) {
final EntityIterableBase eit = (EntityIterableBase) it;
final EntityIteratorBase iterator = (EntityIteratorBase) eit.getSource().iterator();
try {
if (!(iterator.hasNext())) {
return EntityIterableBase.EMPTY;
}
final Entity next = iterator.next();
if (next == null) {
return EntityIterableBase.EMPTY;
}
final String entityType = next.getType();
final EntityMetaData emd = mmd.getEntityMetaData(entityType);
if (emd != null) {
return selectDistinctImpl(eit, linkName);
}
} finally {
iterator.disposeIfShouldBe();
}
}
}
return inMemorySelectDistinct(it, linkName);
}
public Iterable selectManyDistinct(Iterable it, final String linkName) {
if (it == null) {
return EntityIterableBase.EMPTY;
}
if (mmd != null) {
if (it instanceof StaticTypedEntityIterable) {
final StaticTypedEntityIterable tree = (StaticTypedEntityIterable) it;
it = toEntityIterable(it);
if (isPersistentIterable(it)) {
final String entityType = tree.getEntityType();
final EntityMetaData emd = mmd.getEntityMetaData(entityType);
if (emd != null) {
final AssociationEndMetaData aemd = emd.getAssociationEndMetaData(linkName);
if (aemd != null) {
final String resultType = aemd.getOppositeEntityMetaData().getType();
return new StaticTypedIterableDecorator(resultType,
selectManyDistinctImpl((EntityIterableBase) it, linkName), this);
}
}
}
} else if (isPersistentIterable(it)) {
final EntityIterableBase eit = (EntityIterableBase) it;
final EntityIteratorBase iterator = (EntityIteratorBase) eit.getSource().iterator();
try {
if (!(iterator.hasNext())) {
return EntityIterableBase.EMPTY;
}
final Entity next = iterator.next();
if (next == null) {
return EntityIterableBase.EMPTY;
}
final String entityType = next.getType();
EntityMetaData emd = mmd.getEntityMetaData(entityType);
if (emd != null) {
return selectManyDistinctImpl(eit, linkName);
}
} finally {
iterator.disposeIfShouldBe();
}
}
}
return inMemorySelectManyDistinct(it, linkName);
}
public Iterable toEntityIterable(Iterable it) {
if (it instanceof StaticTypedEntityIterable) {
it = ((StaticTypedEntityIterable) it).instantiate();
}
return adjustEntityIterable(it);
}
public Iterable intersectNonTrees(Iterable left, Iterable right) {
if (isPersistentIterable(left) && isPersistentIterable(right)) {
return wrap(((EntityIterableBase) left).getSource().intersect(((EntityIterableBase) right).getSource()));
}
return inMemoryIntersect(left, right);
}
public Iterable unionNonTrees(Iterable left, Iterable right) {
if (isPersistentIterable(left) && isPersistentIterable(right)) {
return wrap(((EntityIterableBase) left).getSource().union(((EntityIterableBase) right).getSource()));
}
return inMemoryUnion(left, right);
}
public Iterable concatNonTrees(Iterable left, Iterable right) {
if (isPersistentIterable(left) && isPersistentIterable(right)) {
return wrap(((EntityIterableBase) left).getSource().concat(((EntityIterableBase) right).getSource()));
}
return inMemoryConcat(left, right);
}
public Iterable excludeNonTrees(Iterable left, Iterable right) {
if (isPersistentIterable(left) && isPersistentIterable(right)) {
return wrap(((EntityIterableBase) left).getSource().minus(((EntityIterableBase) right).getSource()));
}
// subtract
return inMemoryExclude(left, right);
}
private Iterable instantiateAndAdjust(Iterable it) {
return adjustEntityIterable(StaticTypedEntityIterable.instantiate(it));
}
private Iterable selectDistinctImpl(final EntityIterableBase it, String linkName) {
assertOperational();
return wrap(it.getSource().selectDistinct(linkName));
}
private Iterable selectManyDistinctImpl(final EntityIterableBase it, String linkName) {
assertOperational();
return wrap(it.getSource().selectManyDistinct(linkName));
}
public Iterable adjustEntityIterable(Iterable it) {
if (it == EntityIterableBase.EMPTY) {
return it;
}
// try to convert collection to entity iterable.
if (it instanceof Collection) {
final Collection collection = (Collection) it;
final Iterator itr = collection.iterator();
if (itr.hasNext()) {
final Entity e = itr.next();
if (!itr.hasNext()) {
final Iterable wrapped = wrap(e);
if (wrapped != null) {
it = wrapped;
}
}
} else {
return EntityIterableBase.EMPTY;
}
}
// wrap with transient iterable
return isPersistentIterable(it) && !isWrapped(it) ? wrap(((EntityIterableBase) it).getSource()) : it;
}
public Iterable unionAdjusted(final Iterable left, final Iterable right) {
return unionNonTrees(adjustEntityIterable(left), adjustEntityIterable(right));
}
public Iterable intersectAdjusted(final Iterable left, final Iterable right) {
return intersectNonTrees(adjustEntityIterable(left), adjustEntityIterable(right));
}
public Iterable concatAdjusted(final Iterable left, final Iterable right) {
return concatNonTrees(adjustEntityIterable(left), adjustEntityIterable(right));
}
public Iterable excludeAdjusted(final Iterable left, final Iterable right) {
return excludeNonTrees(adjustEntityIterable(left), adjustEntityIterable(right));
}
public static boolean isEmptyIterable(Iterable it) {
return it == null || it == EntityIterableBase.EMPTY || (it instanceof StaticTypedIterableDecorator && ((StaticTypedIterableDecorator) it).getDecorated() == EntityIterableBase.EMPTY);
}
public static boolean isGetAllTree(final StaticTypedEntityIterable tree) {
return tree instanceof TreeKeepingEntityIterable && ((TreeKeepingEntityIterable) tree).getTree() instanceof GetAll;
}
}