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com.avaje.ebeaninternal.server.query.SqlTreeBuilder Maven / Gradle / Ivy

package com.avaje.ebeaninternal.server.query;

import com.avaje.ebeaninternal.api.ManyWhereJoins;
import com.avaje.ebeaninternal.api.PropertyJoin;
import com.avaje.ebeaninternal.api.SpiQuery;
import com.avaje.ebeaninternal.api.SpiQuery.Type;
import com.avaje.ebeaninternal.server.core.OrmQueryRequest;
import com.avaje.ebeaninternal.server.deploy.BeanDescriptor;
import com.avaje.ebeaninternal.server.deploy.BeanProperty;
import com.avaje.ebeaninternal.server.deploy.BeanPropertyAssoc;
import com.avaje.ebeaninternal.server.deploy.BeanPropertyAssocMany;
import com.avaje.ebeaninternal.server.deploy.BeanPropertyAssocOne;
import com.avaje.ebeaninternal.server.deploy.InheritInfo;
import com.avaje.ebeaninternal.server.deploy.TableJoin;
import com.avaje.ebeaninternal.server.el.ElPropertyValue;
import com.avaje.ebeaninternal.server.querydefn.OrmQueryDetail;
import com.avaje.ebeaninternal.server.querydefn.OrmQueryProperties;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

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

/**
 * Factory for SqlTree.
 */
public class SqlTreeBuilder {

  private static final Logger logger = LoggerFactory.getLogger(SqlTreeBuilder.class);

  private final SpiQuery query;

  private final BeanDescriptor desc;

  private final OrmQueryDetail queryDetail;

  private final StringBuilder summary = new StringBuilder();

  private final CQueryPredicates predicates;

  private final boolean subQuery;

  /**
   * Property if resultSet contains master and detail rows.
   */
  private BeanPropertyAssocMany manyProperty;

  private final SqlTreeAlias alias;

  private final DefaultDbSqlContext ctx;

  private final HashSet selectIncludes = new HashSet();

  private final ManyWhereJoins manyWhereJoins;

  private final TableJoin includeJoin;

  private final boolean rawSql;

  /**
   * rawNoId true if the RawSql does not include the @Id property
   */
  private final boolean rawNoId;

  private final boolean disableLazyLoad;

  private SqlTreeNode rootNode;

  /**
   * Construct for RawSql query.
   */
  public SqlTreeBuilder(OrmQueryRequest request, CQueryPredicates predicates, OrmQueryDetail queryDetail, boolean rawNoId) {

    this.rawSql = true;
    this.desc = request.getBeanDescriptor();
    this.rawNoId = rawNoId;
    this.disableLazyLoad = request.getQuery().isDisableLazyLoading();
    this.query = null;
    this.subQuery = false;
    this.queryDetail = queryDetail;
    this.predicates = predicates;

    this.includeJoin = null;
    this.manyWhereJoins = null;
    this.alias = null;
    this.ctx = null;
  }

  /**
   * The predicates are used to determine if 'extra' joins are required to
   * support the where and/or order by clause. If so these extra joins are added
   * to the root node.
   */
  public SqlTreeBuilder(String tableAliasPlaceHolder, String columnAliasPrefix,
                        OrmQueryRequest request, CQueryPredicates predicates, CQueryHistorySupport historySupport, CQueryDraftSupport draftSupport) {

    this.rawSql = false;
    this.rawNoId = false;
    this.desc = request.getBeanDescriptor();
    this.query = request.getQuery();
    this.disableLazyLoad = query.isDisableLazyLoading();
    this.subQuery = Type.SUBQUERY.equals(query.getType()) || Type.ID_LIST.equals(query.getType());
    this.includeJoin = query.getIncludeTableJoin();
    this.manyWhereJoins = query.getManyWhereJoins();
    this.queryDetail = query.getDetail();

    this.predicates = predicates;
    this.alias = new SqlTreeAlias(request.getQuery().getAlias() == null ? request.getBeanDescriptor().getBaseTableAlias() : request.getQuery().getAlias());
    this.ctx = new DefaultDbSqlContext(alias, tableAliasPlaceHolder, columnAliasPrefix, !subQuery, historySupport, draftSupport);
  }

  /**
   * Build based on the includes and using the BeanJoinTree.
   */
  public SqlTree build() {

    summary.append(desc.getName());

    // build the appropriate chain of SelectAdapter's
    buildRoot(desc);

    // build the actual String
    String selectSql = null;
    String fromSql = null;
    String inheritanceWhereSql = null;
    BeanProperty[] encryptedProps = null;
    if (!rawSql) {
      selectSql = buildSelectClause();
      fromSql = buildFromClause();
      inheritanceWhereSql = buildWhereClause();
      encryptedProps = ctx.getEncryptedProps();
    }

    boolean includeJoins = (alias == null) ? false : alias.isIncludeJoins();

    return new SqlTree(summary.toString(), rootNode, selectSql, fromSql, inheritanceWhereSql, encryptedProps,
        manyProperty, queryDetail.getFetchPaths(), includeJoins);
  }

  private String buildSelectClause() {

    if (rawSql) {
      return "Not Used";
    }
    rootNode.appendSelect(ctx, subQuery);

    String selectSql = ctx.getContent();

    // trim off the first comma
    if (selectSql.length() >= SqlTreeNode.COMMA.length()) {
      selectSql = selectSql.substring(SqlTreeNode.COMMA.length());
    }

    return selectSql;
  }

  private String buildWhereClause() {

    if (rawSql) {
      return "Not Used";
    }
    rootNode.appendWhere(ctx);
    return ctx.getContent();
  }

  private String buildFromClause() {

    if (rawSql) {
      return "Not Used";
    }
    rootNode.appendFrom(ctx, SqlJoinType.AUTO);
    return ctx.getContent();
  }

  private void buildRoot(BeanDescriptor desc) {

    rootNode = buildSelectChain(null, null, desc, null);

    if (!rawSql) {
      alias.addJoin(queryDetail.getFetchPaths(), desc);
      alias.addJoin(predicates.getPredicateIncludes(), desc);
      alias.addManyWhereJoins(manyWhereJoins.getPropertyNames());

      // build set of table alias
      alias.buildAlias();

      predicates.parseTableAlias(alias);
    }
  }

  /**
   * Recursively build the query tree depending on what leaves in the tree
   * should be included.
   */
  private SqlTreeNode buildSelectChain(String prefix, BeanPropertyAssoc prop,
                                       BeanDescriptor desc, List joinList) {

    List myJoinList = new ArrayList();

    BeanPropertyAssocOne[] ones = desc.propertiesOne();
    for (int i = 0; i < ones.length; i++) {
      String propPrefix = SplitName.add(prefix, ones[i].getName());
      if (isIncludeBean(propPrefix)) {
        selectIncludes.add(propPrefix);
        buildSelectChain(propPrefix, ones[i], ones[i].getTargetDescriptor(), myJoinList);
      }
    }

    BeanPropertyAssocMany[] manys = desc.propertiesMany();
    for (int i = 0; i < manys.length; i++) {
      String propPrefix = SplitName.add(prefix, manys[i].getName());
      if (isIncludeMany(propPrefix, manys[i])) {
        selectIncludes.add(propPrefix);
        buildSelectChain(propPrefix, manys[i], manys[i].getTargetDescriptor(), myJoinList);
      }
    }

    if (prefix == null && !rawSql) {
      addManyWhereJoins(myJoinList);
    }

    SqlTreeNode selectNode = buildNode(prefix, prop, desc, myJoinList);
    if (joinList != null) {
      joinList.add(selectNode);
    }
    return selectNode;
  }

  /**
   * Add joins used to support where clause predicates on 'many' properties.
   * 

* These joins are effectively independent of any fetch joins on 'many' * properties. *

*/ private void addManyWhereJoins(List myJoinList) { Collection includes = manyWhereJoins.getPropertyJoins(); for (PropertyJoin joinProp : includes) { BeanPropertyAssoc beanProperty = (BeanPropertyAssoc) desc.getBeanPropertyFromPath(joinProp.getProperty()); SqlTreeNodeManyWhereJoin nodeJoin = new SqlTreeNodeManyWhereJoin(joinProp.getProperty(), beanProperty, joinProp.getSqlJoinType()); myJoinList.add(nodeJoin); } } private SqlTreeNode buildNode(String prefix, BeanPropertyAssoc prop, BeanDescriptor desc, List myList) { OrmQueryProperties queryProps = queryDetail.getChunk(prefix, false); SqlTreeProperties props = getBaseSelect(desc, queryProps); if (prefix == null) { buildExtraJoins(desc, myList); // Optional many property for lazy loading query BeanPropertyAssocMany lazyLoadMany = (query == null) ? null : query.getLazyLoadMany(); boolean withId = !rawNoId && !subQuery && (query == null || !query.isDistinct()); return new SqlTreeNodeRoot(desc, props, myList, withId, includeJoin, lazyLoadMany, SpiQuery.TemporalMode.of(query), disableLazyLoad); } else if (prop instanceof BeanPropertyAssocMany) { return new SqlTreeNodeManyRoot(prefix, (BeanPropertyAssocMany) prop, props, myList, disableLazyLoad); } else { return new SqlTreeNodeBean(prefix, prop, props, myList, disableLazyLoad); } } /** * Build extra joins to support properties used in where clause but not * already in select clause. */ private void buildExtraJoins(BeanDescriptor desc, List myList) { if (rawSql) { return; } Set predicateIncludes = predicates.getPredicateIncludes(); if (predicateIncludes == null) { return; } // Note includes - basically means joins. // The selectIncludes is the set of joins that are required to support // the 'select' part of the query. We may need to add other joins to // support the predicates or order by clauses. // remove ManyWhereJoins from the predicateIncludes predicateIncludes.removeAll(manyWhereJoins.getPropertyNames()); predicateIncludes.addAll(predicates.getOrderByIncludes()); // look for predicateIncludes that are not in selectIncludes and add // them as extra joins to the query IncludesDistiller extraJoinDistill = new IncludesDistiller(desc, selectIncludes, predicateIncludes); Collection extraJoins = extraJoinDistill.getExtraJoinRootNodes(); if (!extraJoins.isEmpty()) { // add extra joins required to support predicates // and/or order by clause for (SqlTreeNodeExtraJoin extraJoin : extraJoins) { myList.add(extraJoin); if (extraJoin.isManyJoin()) { // as we are now going to join to the many then we need // to add the distinct to the sql query to stop duplicate // rows... query.setSqlDistinct(true); } } } } /** * A subQuery has slightly different rules in that it just generates SQL (into * the where clause) and its properties are not required to read the resultSet * etc. *

* This means it can included individual properties of an embedded bean. *

*/ private void addPropertyToSubQuery(SqlTreeProperties selectProps, BeanDescriptor desc, String propName) { BeanProperty p = desc.findBeanProperty(propName); if (p == null) { logger.error("property [" + propName + "]not found on " + desc + " for query - excluding it."); } else if (p instanceof BeanPropertyAssoc && p.isEmbedded()) { // if the property is embedded we need to lookup the real column name int pos = propName.indexOf("."); if (pos > -1) { String name = propName.substring(pos + 1); p = ((BeanPropertyAssoc) p).getTargetDescriptor().findBeanProperty(name); } } selectProps.add(p); } private void addProperty(SqlTreeProperties selectProps, BeanDescriptor desc, OrmQueryProperties queryProps, String propName) { if (subQuery) { addPropertyToSubQuery(selectProps, desc, propName); return; } int basePos = propName.indexOf('.'); if (basePos > -1) { // property on an embedded bean. Embedded beans do not yet // support being partially populated so we include the // 'base' property and make sure we only do that once String baseName = propName.substring(0, basePos); // make sure we only included the base/embedded bean once if (!selectProps.containsProperty(baseName)) { BeanProperty p = desc.findBeanProperty(baseName); if (p == null) { logger.error("property [" + propName + "] not found on " + desc + " for query - excluding it."); } else if (p.isEmbedded()) { // add the embedded bean (and effectively // all its properties) selectProps.add(p); } else { String m = "property [" + p.getFullBeanName() + "] expected to be an embedded bean for query - excluding it."; logger.error(m); } } } else { // find the property including searching the // sub class hierarchy if required BeanProperty p = desc.findBeanProperty(propName); if (p == null) { logger.error("property [" + propName + "] not found on " + desc + " for query - excluding it."); p = desc.findBeanProperty("id"); selectProps.add(p); } else if (p.isId()) { // do not bother to include id for normal queries as the // id is always added (except for subQueries) } else if (p instanceof BeanPropertyAssoc) { // need to check if this property should be // excluded. This occurs when this property is // included as a bean join. With a bean join // the property should be excluded as the bean // join has its own node in the SqlTree. if (!queryProps.isIncludedBeanJoin(p.getName())) { // include the property... which basically // means include the foreign key column(s) selectProps.add(p); } } else { selectProps.add(p); } } } private SqlTreeProperties getBaseSelectPartial(BeanDescriptor desc, OrmQueryProperties queryProps) { SqlTreeProperties selectProps = new SqlTreeProperties(); selectProps.setReadOnly(queryProps.isReadOnly()); // add properties in the order in which they appear // in the query. Gives predictable sql/properties for // use with SqlSelect type queries. // Also note that this can include transient properties. // This makes sense for transient properties used to // hold sum() count() type values (with SqlSelect) for (String propName : queryProps.getSelectProperties()) { if (propName.length() > 0) { addProperty(selectProps, desc, queryProps, propName); } } return selectProps; } private SqlTreeProperties getBaseSelect(BeanDescriptor desc, OrmQueryProperties queryProps) { boolean partial = queryProps != null && !queryProps.allProperties(); if (partial) { return getBaseSelectPartial(desc, queryProps); } SqlTreeProperties selectProps = new SqlTreeProperties(); selectProps.setAllProperties(); // normal simple properties of the bean selectProps.add(desc.propertiesBaseScalar()); selectProps.add(desc.propertiesBaseCompound()); selectProps.add(desc.propertiesEmbedded()); BeanPropertyAssocOne[] propertiesOne = desc.propertiesOne(); for (int i = 0; i < propertiesOne.length; i++) { //noinspection StatementWithEmptyBody if (queryProps != null && queryProps.isIncludedBeanJoin(propertiesOne[i].getName())) { // if it is a joined bean... then don't add the property // as it will have its own entire Node in the SqlTree } else { selectProps.add(propertiesOne[i]); } } selectProps.setTableJoins(desc.tableJoins()); InheritInfo inheritInfo = desc.getInheritInfo(); if (inheritInfo != null) { // add sub type properties inheritInfo.addChildrenProperties(selectProps); } return selectProps; } /** * Return true if this many node should be included in the query. */ private boolean isIncludeMany(String propName, BeanPropertyAssocMany manyProp) { if (queryDetail.isJoinsEmpty()) { return false; } if (queryDetail.includesPath(propName)) { if (manyProperty != null) { // only one many associated allowed to be included in fetch if (logger.isDebugEnabled()) { logger.debug("Not joining [" + propName + "] as already joined to a Many[" + manyProperty + "]."); } return false; } manyProperty = manyProp; summary.append(" +many:").append(propName); return true; } return false; } /** * Test to see if we are including this node into the query. *

* Return true if this node is FULLY included resulting in table join. If the * node is not included but its parent has been included then a "bean proxy" * is added and false is returned. *

*/ private boolean isIncludeBean(String prefix) { if (queryDetail.includesPath(prefix)) { // explicitly included summary.append(", ").append(prefix); String[] splitNames = SplitName.split(prefix); queryDetail.includeBeanJoin(splitNames[0], splitNames[1]); return true; } return false; } /** * Takes the select includes and the predicates includes and determines the * extra joins required to support the predicates (that are not already * supported by the select includes). *

* This returns ONLY the leaves. The joins for the leaves *

*/ private static class IncludesDistiller { private final Set selectIncludes; private final Set predicateIncludes; /** * Contains the 'root' extra joins. We only return the roots back. */ private final Map joinRegister = new HashMap(); /** * Register of all the extra join nodes. */ private final Map rootRegister = new HashMap(); private final BeanDescriptor desc; private IncludesDistiller(BeanDescriptor desc, Set selectIncludes, Set predicateIncludes) { this.desc = desc; this.selectIncludes = selectIncludes; this.predicateIncludes = predicateIncludes; } /** * Build the collection of extra joins returning just the roots. *

* each root returned here could contain a little tree of joins. This * follows the more natural pattern and allows for forcing outer joins from * a join to a 'many' down through the rest of its tree. *

*/ private Collection getExtraJoinRootNodes() { String[] extras = findExtras(); if (extras.length == 0) { return rootRegister.values(); } // sort so we process only getting the leaves // excluding nodes between root and the leaf Arrays.sort(extras); // reverse order so get the leaves first... for (int i = 0; i < extras.length; i++) { createExtraJoin(extras[i]); } return rootRegister.values(); } private void createExtraJoin(String includeProp) { SqlTreeNodeExtraJoin extraJoin = createJoinLeaf(includeProp); if (extraJoin != null) { // add the extra join... // find root of this extra join... linking back to the // parents (creating the tree) as it goes. SqlTreeNodeExtraJoin root = findExtraJoinRoot(includeProp, extraJoin); // register the root because these are the only ones we // return back. rootRegister.put(root.getName(), root); } } /** * Create a SqlTreeNodeExtraJoin, register and return it. */ private SqlTreeNodeExtraJoin createJoinLeaf(String propertyName) { ElPropertyValue elGetValue = desc.getElGetValue(propertyName); if (elGetValue == null) { // this can occur for master detail queries // with concatenated keys (so not an error now) return null; } BeanProperty beanProperty = elGetValue.getBeanProperty(); if (beanProperty instanceof BeanPropertyAssoc) { BeanPropertyAssoc assocProp = (BeanPropertyAssoc) beanProperty; if (assocProp.isEmbedded()) { // no extra join required for embedded beans return null; } SqlTreeNodeExtraJoin extraJoin = new SqlTreeNodeExtraJoin(propertyName, assocProp, elGetValue.containsMany()); joinRegister.put(propertyName, extraJoin); return extraJoin; } return null; } /** * Find the root the this extra join tree. *

* This may need to create a parent join implicitly if a predicate join * 'skips' a level. e.g. where details.user.id = 1 (maybe join to details is * not specified and is implicitly created. *

*/ private SqlTreeNodeExtraJoin findExtraJoinRoot(String includeProp, SqlTreeNodeExtraJoin childJoin) { int dotPos = includeProp.lastIndexOf('.'); if (dotPos == -1) { // no parent possible(parent is root) return childJoin; } else { // look in register ... String parentPropertyName = includeProp.substring(0, dotPos); if (selectIncludes.contains(parentPropertyName)) { // parent already handled by select return childJoin; } SqlTreeNodeExtraJoin parentJoin = joinRegister.get(parentPropertyName); if (parentJoin == null) { // we need to create this the parent implicitly... parentJoin = createJoinLeaf(parentPropertyName); } parentJoin.addChild(childJoin); return findExtraJoinRoot(parentPropertyName, parentJoin); } } /** * Find the extra joins required by predicates and not already taken care of * by the select. */ private String[] findExtras() { List extras = new ArrayList(); for (String predProp : predicateIncludes) { if (!selectIncludes.contains(predProp)) { extras.add(predProp); } } return extras.toArray(new String[extras.size()]); } } }




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