Examples of TezWork

• org.apache.hadoop.hive.ql.plan.TezWork
  TezWork. This class encapsulates all the work objects that can be executed in a single tez job. Currently it's basically a tree with MapWork at the leaves and and ReduceWork in all other nodes.

Examples of org.apache.hadoop.hive.ql.plan.TezWork

    proc.process(rs, null, ctx, (Object[])null);

    assertNotNull(ctx.currentTask);
    assertTrue(ctx.rootTasks.contains(ctx.currentTask));

    TezWork work = ctx.currentTask.getWork();
    assertEquals(work.getAllWork().size(),1);

    BaseWork w = work.getAllWork().get(0);
    assertTrue(w instanceof MapWork);

    MapWork mw = (MapWork)w;

    // need to make sure names are set for tez to connect things right

Examples of org.apache.hadoop.hive.ql.plan.TezWork

    proc.process(rs,  null,  ctx,  (Object[])null);

    // create reduce
    proc.process(fs, null, ctx, (Object[])null);

    TezWork work = ctx.currentTask.getWork();
    assertEquals(work.getAllWork().size(),2);

    BaseWork w = work.getAllWork().get(1);
    assertTrue(w instanceof ReduceWork);
    assertTrue(work.getParents(w).contains(work.getAllWork().get(0)));

    ReduceWork rw = (ReduceWork)w;

    // need to make sure names are set for tez to connect things right
    assertNotNull(w.getName());

Examples of org.apache.hadoop.hive.ql.plan.TezWork

            Object[] args = invocation.getArguments();
            return new Edge((Vertex)args[1], (Vertex)args[3], mock(EdgeProperty.class));
          }
        });

    work = new TezWork("");

    mws = new MapWork[] { new MapWork(), new MapWork()};
    rws = new ReduceWork[] { new ReduceWork(), new ReduceWork() };

    work.addAll(mws);

Examples of org.apache.hadoop.hive.ql.plan.TezWork

    }
  }

  @Test
  public void testEmptyWork() throws IllegalArgumentException, IOException, Exception {
    DAG dag = task.build(conf, new TezWork(""), path, appLr, null, new Context(conf));
    assertEquals(dag.getVertices().size(), 0);
  }

Examples of org.apache.hadoop.hive.ql.plan.TezWork

      // if we're visiting a terminal we've created ourselves,
      // just skip and keep going
      return null;
    }

    TezWork tezWork = context.currentTask.getWork();

    // Right now the work graph is pretty simple. If there is no
    // Preceding work we have a root and will generate a map
    // vertex. If there is a preceding work we will generate
    // a reduce vertex
    BaseWork work;
    if (context.rootToWorkMap.containsKey(root)) {
      // having seen the root operator before means there was a branch in the
      // operator graph. There's typically two reasons for that: a) mux/demux
      // b) multi insert. Mux/Demux will hit the same leaf again, multi insert
      // will result into a vertex with multiple FS or RS operators.

      // At this point we don't have to do anything special in this case. Just
      // run through the regular paces w/o creating a new task.
      work = context.rootToWorkMap.get(root);
    } else {
      // create a new vertex
      if (context.preceedingWork == null) {
        work = utils.createMapWork(context, root, tezWork, null);
      } else {
        work = utils.createReduceWork(context, root, tezWork);
      }
      context.rootToWorkMap.put(root, work);
    }

    // this is where we set the sort columns that we will be using for KeyValueInputMerge
    if (operator instanceof DummyStoreOperator) {
      work.addSortCols(root.getOpTraits().getSortCols().get(0));
    }

    if (!context.childToWorkMap.containsKey(operator)) {
      List<BaseWork> workItems = new LinkedList<BaseWork>();
      workItems.add(work);
      context.childToWorkMap.put(operator, workItems);
    } else {
      context.childToWorkMap.get(operator).add(work);
    }

    // this transformation needs to be first because it changes the work item itself.
    // which can affect the working of all downstream transformations.
    if (context.currentMergeJoinOperator != null) {
      // we are currently walking the big table side of the merge join. we need to create or hook up
      // merge join work.
      MergeJoinWork mergeJoinWork = null;
      if (context.opMergeJoinWorkMap.containsKey(context.currentMergeJoinOperator)) {
        // we have found a merge work corresponding to this closing operator. Hook up this work.
        mergeJoinWork = context.opMergeJoinWorkMap.get(context.currentMergeJoinOperator);
      } else {
        // we need to create the merge join work
        mergeJoinWork = new MergeJoinWork();
        mergeJoinWork.setMergeJoinOperator(context.currentMergeJoinOperator);
        tezWork.add(mergeJoinWork);
        context.opMergeJoinWorkMap.put(context.currentMergeJoinOperator, mergeJoinWork);
      }
      // connect the work correctly.
      work.addSortCols(root.getOpTraits().getSortCols().get(0));
      mergeJoinWork.addMergedWork(work, null);
      Operator<? extends OperatorDesc> parentOp =
          getParentFromStack(context.currentMergeJoinOperator, stack);
      int pos = context.currentMergeJoinOperator.getTagForOperator(parentOp);
      work.setTag(pos);
      tezWork.setVertexType(work, VertexType.MULTI_INPUT_UNINITIALIZED_EDGES);
      for (BaseWork parentWork : tezWork.getParents(work)) {
        TezEdgeProperty edgeProp = tezWork.getEdgeProperty(parentWork, work);
        tezWork.disconnect(parentWork, work);
        tezWork.connect(parentWork, mergeJoinWork, edgeProp);
      }

      for (BaseWork childWork : tezWork.getChildren(work)) {
        TezEdgeProperty edgeProp = tezWork.getEdgeProperty(work, childWork);
        tezWork.disconnect(work, childWork);
        tezWork.connect(mergeJoinWork, childWork, edgeProp);
      }
      tezWork.remove(work);
      context.rootToWorkMap.put(root, mergeJoinWork);
      context.childToWorkMap.get(operator).remove(work);
      context.childToWorkMap.get(operator).add(mergeJoinWork);
      work = mergeJoinWork;
      context.currentMergeJoinOperator = null;
    }

    // remember which mapjoin operator links with which work
    if (!context.currentMapJoinOperators.isEmpty()) {
      for (MapJoinOperator mj: context.currentMapJoinOperators) {
        LOG.debug("Processing map join: " + mj);
        // remember the mapping in case we scan another branch of the
        // mapjoin later
        if (!context.mapJoinWorkMap.containsKey(mj)) {
          List<BaseWork> workItems = new LinkedList<BaseWork>();
          workItems.add(work);
          context.mapJoinWorkMap.put(mj, workItems);
        } else {
          context.mapJoinWorkMap.get(mj).add(work);
        }

        /*
         * this happens in case of map join operations.
         * The tree looks like this:
         *
         *        RS <--- we are here perhaps
         *        |
         *     MapJoin
         *     /     \
         *   RS       TS
         *  /
         * TS
         *
         * If we are at the RS pointed above, and we may have already visited the
         * RS following the TS, we have already generated work for the TS-RS.
         * We need to hook the current work to this generated work.
         */
        if (context.linkOpWithWorkMap.containsKey(mj)) {
          Map<BaseWork,TezEdgeProperty> linkWorkMap = context.linkOpWithWorkMap.get(mj);
          if (linkWorkMap != null) {
            if (context.linkChildOpWithDummyOp.containsKey(mj)) {
              for (Operator<?> dummy: context.linkChildOpWithDummyOp.get(mj)) {
                work.addDummyOp((HashTableDummyOperator) dummy);
              }
            }
            for (Entry<BaseWork,TezEdgeProperty> parentWorkMap : linkWorkMap.entrySet()) {
              BaseWork parentWork = parentWorkMap.getKey();
              LOG.debug("connecting "+parentWork.getName()+" with "+work.getName());
              TezEdgeProperty edgeProp = parentWorkMap.getValue();
              tezWork.connect(parentWork, work, edgeProp);
              if (edgeProp.getEdgeType() == EdgeType.CUSTOM_EDGE) {
                tezWork.setVertexType(work, VertexType.INITIALIZED_EDGES);
              }

              // need to set up output name for reduce sink now that we know the name
              // of the downstream work
              for (ReduceSinkOperator r:
                     context.linkWorkWithReduceSinkMap.get(parentWork)) {
                if (r.getConf().getOutputName() != null) {
                  LOG.debug("Cloning reduce sink for multi-child broadcast edge");
                  // we've already set this one up. Need to clone for the next work.
                  r = (ReduceSinkOperator) OperatorFactory.getAndMakeChild(
                      (ReduceSinkDesc)r.getConf().clone(), r.getParentOperators());
                  context.clonedReduceSinks.add(r);
                }
                r.getConf().setOutputName(work.getName());
                context.connectedReduceSinks.add(r);
              }
            }
          }
        }
      }
      // clear out the set. we don't need it anymore.
      context.currentMapJoinOperators.clear();
    }

    if (!context.currentUnionOperators.isEmpty()) {
      // if there are union all operators we need to add the work to the set
      // of union operators.

      UnionWork unionWork;
      if (context.unionWorkMap.containsKey(operator)) {
        // we've seen this terminal before and have created a union work object.
        // just need to add this work to it. There will be no children of this one
        // since we've passed this operator before.
        assert operator.getChildOperators().isEmpty();
        unionWork = (UnionWork) context.unionWorkMap.get(operator);

      } else {
        // first time through. we need to create a union work object and add this
        // work to it. Subsequent work should reference the union and not the actual
        // work.
        unionWork = utils.createUnionWork(context, operator, tezWork);
      }

      // finally hook everything up
      LOG.debug("Connecting union work ("+unionWork+") with work ("+work+")");
      TezEdgeProperty edgeProp = new TezEdgeProperty(EdgeType.CONTAINS);
      tezWork.connect(unionWork, work, edgeProp);
      unionWork.addUnionOperators(context.currentUnionOperators);
      context.currentUnionOperators.clear();
      context.workWithUnionOperators.add(work);
      work = unionWork;
    }


    // This is where we cut the tree as described above. We also remember that
    // we might have to connect parent work with this work later.
    boolean removeParents = false;
    for (Operator<?> parent: new ArrayList<Operator<?>>(root.getParentOperators())) {
      removeParents = true;
      context.leafOperatorToFollowingWork.put(parent, work);
      LOG.debug("Removing " + parent + " as parent from " + root);
    }
    if (removeParents) {
      for (Operator<?> parent : new ArrayList<Operator<?>>(root.getParentOperators())) {
        root.removeParent(parent);
      }
    }

    // We're scanning a tree from roots to leaf (this is not technically
    // correct, demux and mux operators might form a diamond shape, but
    // we will only scan one path and ignore the others, because the
    // diamond shape is always contained in a single vertex). The scan
    // is depth first and because we remove parents when we pack a pipeline
    // into a vertex we will never visit any node twice. But because of that
    // we might have a situation where we need to connect 'work' that comes after
    // the 'work' we're currently looking at.
    //
    // Also note: the concept of leaf and root is reversed in hive for historical
    // reasons. Roots are data sources, leaves are data sinks. I know.
    if (context.leafOperatorToFollowingWork.containsKey(operator)) {

      BaseWork followingWork = context.leafOperatorToFollowingWork.get(operator);
      long bytesPerReducer = context.conf.getLongVar(HiveConf.ConfVars.BYTESPERREDUCER);

      LOG.debug("Second pass. Leaf operator: "+operator
        +" has common downstream work:"+followingWork);

      if (operator instanceof DummyStoreOperator) {
        // this is the small table side.
        assert (followingWork instanceof MergeJoinWork);
        MergeJoinWork mergeJoinWork = (MergeJoinWork) followingWork;
        CommonMergeJoinOperator mergeJoinOp = mergeJoinWork.getMergeJoinOperator();
        work.setTag(mergeJoinOp.getTagForOperator(operator));
        mergeJoinWork.addMergedWork(null, work);
        tezWork.setVertexType(mergeJoinWork, VertexType.MULTI_INPUT_UNINITIALIZED_EDGES);
        for (BaseWork parentWork : tezWork.getParents(work)) {
          TezEdgeProperty edgeProp = tezWork.getEdgeProperty(parentWork, work);
          tezWork.disconnect(parentWork, work);
          tezWork.connect(parentWork, mergeJoinWork, edgeProp);
        }
        work = mergeJoinWork;
      } else {
        // need to add this branch to the key + value info
        assert operator instanceof ReduceSinkOperator
            && ((followingWork instanceof ReduceWork) || (followingWork instanceof MergeJoinWork)
                || followingWork instanceof UnionWork);
        ReduceSinkOperator rs = (ReduceSinkOperator) operator;
        ReduceWork rWork = null;
        if (followingWork instanceof MergeJoinWork) {
          MergeJoinWork mergeJoinWork = (MergeJoinWork) followingWork;
          rWork = (ReduceWork) mergeJoinWork.getMainWork();
        } else if (followingWork instanceof UnionWork) {
          // this can only be possible if there is merge work followed by the union
          UnionWork unionWork = (UnionWork) followingWork;
          int index = getMergeIndex(tezWork, unionWork, rs);
          // guaranteed to be instance of MergeJoinWork if index is valid
          BaseWork baseWork = tezWork.getChildren(unionWork).get(index);
          if (baseWork instanceof MergeJoinWork) {
            MergeJoinWork mergeJoinWork = (MergeJoinWork) baseWork;
            // disconnect the connection to union work and connect to merge work
            followingWork = mergeJoinWork;
            rWork = (ReduceWork) mergeJoinWork.getMainWork();
          } else {
            throw new SemanticException("Unknown work type found: "
                + baseWork.getClass().getCanonicalName());
          }
        } else {
          rWork = (ReduceWork) followingWork;
        }
        GenMapRedUtils.setKeyAndValueDesc(rWork, rs);

        // remember which parent belongs to which tag
        int tag = rs.getConf().getTag();
        rWork.getTagToInput().put(tag == -1 ? 0 : tag, work.getName());

        // remember the output name of the reduce sink
        rs.getConf().setOutputName(rWork.getName());

        if (!context.connectedReduceSinks.contains(rs)) {
          // add dependency between the two work items
          TezEdgeProperty edgeProp;
          if (rWork.isAutoReduceParallelism()) {
            edgeProp =
                new TezEdgeProperty(context.conf, EdgeType.SIMPLE_EDGE, true,
                    rWork.getMinReduceTasks(), rWork.getMaxReduceTasks(), bytesPerReducer);
          } else {
            edgeProp = new TezEdgeProperty(EdgeType.SIMPLE_EDGE);
          }
          tezWork.connect(work, followingWork, edgeProp);
          context.connectedReduceSinks.add(rs);
        }
      }
    } else {
      LOG.debug("First pass. Leaf operator: "+operator);

Examples of org.apache.hadoop.hive.ql.plan.TezWork

  }

  @Override
  public Collection<MapWork> getMapWork() {
    List<MapWork> result = new LinkedList<MapWork>();
    TezWork work = getWork();

    // framework expects MapWork instances that have no physical parents (i.e.: union parent is
    // fine, broadcast parent isn't)
    for (BaseWork w: work.getAllWorkUnsorted()) {
      if (w instanceof MapWork) {
        List<BaseWork> parents = work.getParents(w);
        boolean candidate = true;
        for (BaseWork parent: parents) {
          if (!(parent instanceof UnionWork)) {
            candidate = false;
          }

Examples of org.apache.hadoop.hive.ql.plan.TezWork

        }
      }

      assert alias != null;

      TezWork tezWork = context.currentTask.getWork();
      boolean partialScan = parseInfo.isPartialScanAnalyzeCommand();
      boolean noScan = parseInfo.isNoScanAnalyzeCommand();
      if (inputFormat.equals(OrcInputFormat.class) && (noScan || partialScan)) {

        // ANALYZE TABLE T [PARTITION (...)] COMPUTE STATISTICS partialscan;

Examples of org.apache.hadoop.hive.ql.plan.TezWork

    TezEdgeProperty edgeProp = new TezEdgeProperty(null, edgeType, numBuckets);

    if (mapJoinWork != null) {
      for (BaseWork myWork: mapJoinWork) {
        // link the work with the work associated with the reduce sink that triggered this rule
        TezWork tezWork = context.currentTask.getWork();
        LOG.debug("connecting "+parentWork.getName()+" with "+myWork.getName());
        tezWork.connect(parentWork, myWork, edgeProp);
        if (edgeType == EdgeType.CUSTOM_EDGE) {
          tezWork.setVertexType(myWork, VertexType.INITIALIZED_EDGES);
        }

        ReduceSinkOperator r = null;
        if (parentRS.getConf().getOutputName() != null) {
          LOG.debug("Cloning reduce sink for multi-child broadcast edge");

Examples of org.apache.hadoop.hive.ql.plan.TezWork

        throws SemanticException {
      Task<? extends Serializable> currTask = (Task<? extends Serializable>) nd;
      if (currTask instanceof MapRedTask) {
        convertMapWork(((MapRedTask) currTask).getWork().getMapWork(), false);
      } else if (currTask instanceof TezTask) {
        TezWork work = ((TezTask) currTask).getWork();
        for (BaseWork w: work.getAllWork()) {
          if (w instanceof MapWork) {
            convertMapWork((MapWork) w, true);
          } else if (w instanceof ReduceWork) {
            // We are only vectorizing Reduce under Tez.
            if (HiveConf.getBoolVar(pctx.getConf(),

Examples of org.apache.hadoop.hive.ql.plan.TezWork

  }

  @Override
  protected void setInputFormat(Task<? extends Serializable> task) {
    if (task instanceof TezTask) {
      TezWork work = ((TezTask)task).getWork();
      List<BaseWork> all = work.getAllWork();
      for (BaseWork w: all) {
        if (w instanceof MapWork) {
          MapWork mapWork = (MapWork) w;
          HashMap<String, Operator<? extends OperatorDesc>> opMap = mapWork.getAliasToWork();
          if (!opMap.isEmpty()) {