public Set<Dimension> rewriteDenormctx(
        CandidateFact cfact, Map<Dimension, CandidateDim> dimsToQuery, boolean replaceFact)
        throws LensException {
      Set<Dimension> refTbls = new HashSet<>();

      if (!tableToRefCols.isEmpty()) {
        // pick referenced columns for fact
        if (cfact != null) {
          pickColumnsForTable(cfact.getName());
        }
        // pick referenced columns for dimensions
        if (dimsToQuery != null && !dimsToQuery.isEmpty()) {
          for (CandidateDim cdim : dimsToQuery.values()) {
            pickColumnsForTable(cdim.getName());
          }
        }
        // Replace picked reference in all the base trees
        replaceReferencedColumns(cfact, replaceFact);

        // Add the picked references to dimsToQuery
        for (PickedReference picked : pickedRefs) {
          if (isPickedFor(picked, cfact, dimsToQuery)) {
            refTbls.add(
                (Dimension) cubeql.getCubeTableForAlias(picked.getChainRef().getChainName()));
            cubeql.addColumnsQueried(
                picked.getChainRef().getChainName(), picked.getChainRef().getRefColumn());
          }
        }
      }
      return refTbls;
    }
 // checks if the reference if picked for facts and dimsToQuery passed
 private boolean isPickedFor(
     PickedReference picked, CandidateFact cfact, Map<Dimension, CandidateDim> dimsToQuery) {
   if (cfact != null && picked.pickedFor.equalsIgnoreCase(cfact.getName())) {
     return true;
   }
   if (dimsToQuery != null) {
     for (CandidateDim cdim : dimsToQuery.values()) {
       if (picked.pickedFor.equalsIgnoreCase(cdim.getName())) {
         return true;
       }
     }
   }
   return false;
 }
Beispiel #3
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  public String toHQL() throws LensException {
    Set<CandidateFact> cfacts = pickCandidateFactToQuery();
    Map<Dimension, CandidateDim> dimsToQuery = pickCandidateDimsToQuery(dimensions);
    log.info("facts:{}, dimsToQuery: {}", cfacts, dimsToQuery);
    if (autoJoinCtx != null) {
      // prune join paths for picked fact and dimensions
      autoJoinCtx.pruneAllPaths(cube, cfacts, dimsToQuery);
    }

    Map<CandidateFact, Set<Dimension>> factDimMap = new HashMap<>();
    if (cfacts != null) {
      if (cfacts.size() > 1) {
        // copy ASTs for each fact
        for (CandidateFact cfact : cfacts) {
          cfact.copyASTs(this);
          factDimMap.put(cfact, new HashSet<>(dimsToQuery.keySet()));
        }
      }
      for (CandidateFact fact : cfacts) {
        addRangeClauses(fact);
      }
    }

    // pick dimension tables required during expression expansion for the picked fact and dimensions
    Set<Dimension> exprDimensions = new HashSet<Dimension>();
    if (cfacts != null) {
      for (CandidateFact cfact : cfacts) {
        Set<Dimension> factExprDimTables =
            exprCtx.rewriteExprCtx(cfact, dimsToQuery, cfacts.size() > 1 ? cfact : this);
        exprDimensions.addAll(factExprDimTables);
        if (cfacts.size() > 1) {
          factDimMap.get(cfact).addAll(factExprDimTables);
        }
      }
      if (cfacts.size() > 1) {
        havingAST = MultiFactHQLContext.pushDownHaving(havingAST, this, cfacts);
      }
    } else {
      // dim only query
      exprDimensions.addAll(exprCtx.rewriteExprCtx(null, dimsToQuery, this));
    }
    dimsToQuery.putAll(pickCandidateDimsToQuery(exprDimensions));
    log.info("facts:{}, dimsToQuery: {}", cfacts, dimsToQuery);

    // pick denorm tables for the picked fact and dimensions
    Set<Dimension> denormTables = new HashSet<Dimension>();
    if (cfacts != null) {
      for (CandidateFact cfact : cfacts) {
        Set<Dimension> factDenormTables =
            deNormCtx.rewriteDenormctx(cfact, dimsToQuery, cfacts.size() > 1);
        denormTables.addAll(factDenormTables);
        if (cfacts.size() > 1) {
          factDimMap.get(cfact).addAll(factDenormTables);
        }
      }
    } else {
      denormTables.addAll(deNormCtx.rewriteDenormctx(null, dimsToQuery, false));
    }
    dimsToQuery.putAll(pickCandidateDimsToQuery(denormTables));
    log.info("facts:{}, dimsToQuery: {}", cfacts, dimsToQuery);
    // Prune join paths once denorm tables are picked
    if (autoJoinCtx != null) {
      // prune join paths for picked fact and dimensions
      autoJoinCtx.pruneAllPaths(cube, cfacts, dimsToQuery);
    }
    if (autoJoinCtx != null) {
      // add optional dims from Join resolver
      Set<Dimension> joiningTables = new HashSet<Dimension>();
      if (cfacts != null && cfacts.size() > 1) {
        for (CandidateFact cfact : cfacts) {
          Set<Dimension> factJoiningTables =
              autoJoinCtx.pickOptionalTables(cfact, factDimMap.get(cfact), this);
          factDimMap.get(cfact).addAll(factJoiningTables);
          joiningTables.addAll(factJoiningTables);
        }
      } else {
        joiningTables.addAll(autoJoinCtx.pickOptionalTables(null, dimsToQuery.keySet(), this));
      }
      dimsToQuery.putAll(pickCandidateDimsToQuery(joiningTables));
    }
    log.info("Picked Fact:{} dimsToQuery: {}", cfacts, dimsToQuery);
    pickedDimTables = dimsToQuery.values();
    pickedFacts = cfacts;
    if (cfacts != null) {
      if (cfacts.size() > 1) {
        // Update ASTs for each fact
        for (CandidateFact cfact : cfacts) {
          cfact.updateASTs(this);
        }
        whereAST =
            MultiFactHQLContext.convertHavingToWhere(
                havingAST, this, cfacts, new DefaultAliasDecider());
      }
    }
    hqlContext = createHQLContext(cfacts, dimsToQuery, factDimMap);
    return hqlContext.toHQL();
  }