Esempio n. 1
0
  private Lop constructLopsIQM() throws HopsException, LopsException {

    ExecType et = optFindExecType();

    Hop input = getInput().get(0);
    if (et == ExecType.MR) {
      CombineUnary combine =
          CombineUnary.constructCombineLop(input.constructLops(), DataType.MATRIX, getValueType());
      combine
          .getOutputParameters()
          .setDimensions(
              input.getDim1(),
              input.getDim2(),
              input.getRowsInBlock(),
              input.getColsInBlock(),
              input.getNnz());

      SortKeys sort =
          SortKeys.constructSortByValueLop(
              combine,
              SortKeys.OperationTypes.WithoutWeights,
              DataType.MATRIX,
              ValueType.DOUBLE,
              ExecType.MR);

      // Sort dimensions are same as the first input
      sort.getOutputParameters()
          .setDimensions(
              input.getDim1(),
              input.getDim2(),
              input.getRowsInBlock(),
              input.getColsInBlock(),
              input.getNnz());

      Data lit = Data.createLiteralLop(ValueType.DOUBLE, Double.toString(0.25));

      lit.setAllPositions(
          this.getBeginLine(), this.getBeginColumn(), this.getEndLine(), this.getEndColumn());

      PickByCount pick =
          new PickByCount(
              sort, lit, DataType.MATRIX, getValueType(), PickByCount.OperationTypes.RANGEPICK);

      pick.getOutputParameters().setDimensions(-1, -1, getRowsInBlock(), getColsInBlock(), -1);
      setLineNumbers(pick);

      PartialAggregate pagg =
          new PartialAggregate(
              pick,
              HopsAgg2Lops.get(Hop.AggOp.SUM),
              HopsDirection2Lops.get(Hop.Direction.RowCol),
              DataType.MATRIX,
              getValueType());
      setLineNumbers(pagg);

      // Set the dimensions of PartialAggregate LOP based on the
      // direction in which aggregation is performed
      pagg.setDimensionsBasedOnDirection(getDim1(), getDim2(), getRowsInBlock(), getColsInBlock());

      Group group1 = new Group(pagg, Group.OperationTypes.Sort, DataType.MATRIX, getValueType());
      group1
          .getOutputParameters()
          .setDimensions(getDim1(), getDim2(), getRowsInBlock(), getColsInBlock(), getNnz());
      setLineNumbers(group1);

      Aggregate agg1 =
          new Aggregate(
              group1,
              HopsAgg2Lops.get(Hop.AggOp.SUM),
              DataType.MATRIX,
              getValueType(),
              ExecType.MR);
      agg1.getOutputParameters()
          .setDimensions(getDim1(), getDim2(), getRowsInBlock(), getColsInBlock(), getNnz());
      agg1.setupCorrectionLocation(pagg.getCorrectionLocation());
      setLineNumbers(agg1);

      UnaryCP unary1 =
          new UnaryCP(
              agg1, HopsOpOp1LopsUS.get(OpOp1.CAST_AS_SCALAR), getDataType(), getValueType());
      unary1.getOutputParameters().setDimensions(0, 0, 0, 0, -1);
      setLineNumbers(unary1);

      Unary iqm =
          new Unary(
              sort,
              unary1,
              Unary.OperationTypes.MR_IQM,
              DataType.SCALAR,
              ValueType.DOUBLE,
              ExecType.CP);
      iqm.getOutputParameters().setDimensions(0, 0, 0, 0, -1);
      setLineNumbers(iqm);

      return iqm;
    } else {
      SortKeys sort =
          SortKeys.constructSortByValueLop(
              input.constructLops(),
              SortKeys.OperationTypes.WithoutWeights,
              DataType.MATRIX,
              ValueType.DOUBLE,
              et);
      sort.getOutputParameters()
          .setDimensions(
              input.getDim1(),
              input.getDim2(),
              input.getRowsInBlock(),
              input.getColsInBlock(),
              input.getNnz());
      PickByCount pick =
          new PickByCount(
              sort, null, getDataType(), getValueType(), PickByCount.OperationTypes.IQM, et, true);

      pick.getOutputParameters()
          .setDimensions(getDim1(), getDim2(), getRowsInBlock(), getColsInBlock(), getNnz());
      setLineNumbers(pick);

      return pick;
    }
  }
Esempio n. 2
0
  @Override
  public Lop constructLops() throws HopsException, LopsException {
    // return already created lops
    if (getLops() != null) return getLops();

    try {
      ExecType et = optFindExecType();
      Hop input = getInput().get(0);

      if (et == ExecType.CP) {
        Lop agg1 = null;
        if (isTernaryAggregateRewriteApplicable()) {
          agg1 = constructLopsTernaryAggregateRewrite(et);
        } else if (isUnaryAggregateOuterCPRewriteApplicable()) {
          OperationTypes op = HopsAgg2Lops.get(_op);
          DirectionTypes dir = HopsDirection2Lops.get(_direction);

          BinaryOp binput = (BinaryOp) getInput().get(0);
          agg1 =
              new UAggOuterChain(
                  binput.getInput().get(0).constructLops(),
                  binput.getInput().get(1).constructLops(),
                  op,
                  dir,
                  HopsOpOp2LopsB.get(binput.getOp()),
                  DataType.MATRIX,
                  getValueType(),
                  ExecType.CP);
          PartialAggregate.setDimensionsBasedOnDirection(
              agg1, getDim1(), getDim2(), input.getRowsInBlock(), input.getColsInBlock(), dir);

          if (getDataType() == DataType.SCALAR) {
            UnaryCP unary1 =
                new UnaryCP(
                    agg1, HopsOpOp1LopsUS.get(OpOp1.CAST_AS_SCALAR), getDataType(), getValueType());
            unary1.getOutputParameters().setDimensions(0, 0, 0, 0, -1);
            setLineNumbers(unary1);
            setLops(unary1);
          }

        } else { // general case
          int k = OptimizerUtils.getConstrainedNumThreads(_maxNumThreads);
          if (DMLScript.USE_ACCELERATOR
              && (DMLScript.FORCE_ACCELERATOR
                  || getMemEstimate() < OptimizerUtils.GPU_MEMORY_BUDGET)
              && (_op == AggOp.SUM)) {
            et = ExecType.GPU;
            k = 1;
          }
          agg1 =
              new PartialAggregate(
                  input.constructLops(),
                  HopsAgg2Lops.get(_op),
                  HopsDirection2Lops.get(_direction),
                  getDataType(),
                  getValueType(),
                  et,
                  k);
        }

        setOutputDimensions(agg1);
        setLineNumbers(agg1);
        setLops(agg1);

        if (getDataType() == DataType.SCALAR) {
          agg1.getOutputParameters()
              .setDimensions(1, 1, getRowsInBlock(), getColsInBlock(), getNnz());
        }
      } else if (et == ExecType.MR) {
        OperationTypes op = HopsAgg2Lops.get(_op);
        DirectionTypes dir = HopsDirection2Lops.get(_direction);

        // unary aggregate operation
        Lop transform1 = null;
        if (isUnaryAggregateOuterRewriteApplicable()) {
          BinaryOp binput = (BinaryOp) getInput().get(0);
          transform1 =
              new UAggOuterChain(
                  binput.getInput().get(0).constructLops(),
                  binput.getInput().get(1).constructLops(),
                  op,
                  dir,
                  HopsOpOp2LopsB.get(binput.getOp()),
                  DataType.MATRIX,
                  getValueType(),
                  ExecType.MR);
          PartialAggregate.setDimensionsBasedOnDirection(
              transform1,
              getDim1(),
              getDim2(),
              input.getRowsInBlock(),
              input.getColsInBlock(),
              dir);
        } else // default
        {
          transform1 =
              new PartialAggregate(input.constructLops(), op, dir, DataType.MATRIX, getValueType());
          ((PartialAggregate) transform1)
              .setDimensionsBasedOnDirection(
                  getDim1(), getDim2(), input.getRowsInBlock(), input.getColsInBlock());
        }
        setLineNumbers(transform1);

        // aggregation if required
        Lop aggregate = null;
        Group group1 = null;
        Aggregate agg1 = null;
        if (requiresAggregation(input, _direction) || transform1 instanceof UAggOuterChain) {
          group1 =
              new Group(transform1, Group.OperationTypes.Sort, DataType.MATRIX, getValueType());
          group1
              .getOutputParameters()
              .setDimensions(
                  getDim1(), getDim2(), input.getRowsInBlock(), input.getColsInBlock(), getNnz());
          setLineNumbers(group1);

          agg1 = new Aggregate(group1, HopsAgg2Lops.get(_op), DataType.MATRIX, getValueType(), et);
          agg1.getOutputParameters()
              .setDimensions(
                  getDim1(), getDim2(), input.getRowsInBlock(), input.getColsInBlock(), getNnz());
          agg1.setupCorrectionLocation(PartialAggregate.getCorrectionLocation(op, dir));
          setLineNumbers(agg1);

          aggregate = agg1;
        } else {
          ((PartialAggregate) transform1).setDropCorrection();
          aggregate = transform1;
        }

        setLops(aggregate);

        // cast if required
        if (getDataType() == DataType.SCALAR) {

          // Set the dimensions of PartialAggregate LOP based on the
          // direction in which aggregation is performed
          PartialAggregate.setDimensionsBasedOnDirection(
              transform1,
              input.getDim1(),
              input.getDim2(),
              input.getRowsInBlock(),
              input.getColsInBlock(),
              dir);

          if (group1 != null && agg1 != null) { // if aggregation required
            group1
                .getOutputParameters()
                .setDimensions(
                    input.getDim1(),
                    input.getDim2(),
                    input.getRowsInBlock(),
                    input.getColsInBlock(),
                    getNnz());
            agg1.getOutputParameters()
                .setDimensions(1, 1, input.getRowsInBlock(), input.getColsInBlock(), getNnz());
          }

          UnaryCP unary1 =
              new UnaryCP(
                  aggregate,
                  HopsOpOp1LopsUS.get(OpOp1.CAST_AS_SCALAR),
                  getDataType(),
                  getValueType());
          unary1.getOutputParameters().setDimensions(0, 0, 0, 0, -1);
          setLineNumbers(unary1);
          setLops(unary1);
        }
      } else if (et == ExecType.SPARK) {
        OperationTypes op = HopsAgg2Lops.get(_op);
        DirectionTypes dir = HopsDirection2Lops.get(_direction);

        // unary aggregate
        if (isTernaryAggregateRewriteApplicable()) {
          Lop aggregate = constructLopsTernaryAggregateRewrite(et);
          setOutputDimensions(aggregate); // 0x0 (scalar)
          setLineNumbers(aggregate);
          setLops(aggregate);
        } else if (isUnaryAggregateOuterSPRewriteApplicable()) {
          BinaryOp binput = (BinaryOp) getInput().get(0);
          Lop transform1 =
              new UAggOuterChain(
                  binput.getInput().get(0).constructLops(),
                  binput.getInput().get(1).constructLops(),
                  op,
                  dir,
                  HopsOpOp2LopsB.get(binput.getOp()),
                  DataType.MATRIX,
                  getValueType(),
                  ExecType.SPARK);
          PartialAggregate.setDimensionsBasedOnDirection(
              transform1,
              getDim1(),
              getDim2(),
              input.getRowsInBlock(),
              input.getColsInBlock(),
              dir);
          setLineNumbers(transform1);
          setLops(transform1);

          if (getDataType() == DataType.SCALAR) {
            UnaryCP unary1 =
                new UnaryCP(
                    transform1,
                    HopsOpOp1LopsUS.get(OpOp1.CAST_AS_SCALAR),
                    getDataType(),
                    getValueType());
            unary1.getOutputParameters().setDimensions(0, 0, 0, 0, -1);
            setLineNumbers(unary1);
            setLops(unary1);
          }

        } else // default
        {
          boolean needAgg = requiresAggregation(input, _direction);
          SparkAggType aggtype = getSparkUnaryAggregationType(needAgg);

          PartialAggregate aggregate =
              new PartialAggregate(
                  input.constructLops(),
                  HopsAgg2Lops.get(_op),
                  HopsDirection2Lops.get(_direction),
                  DataType.MATRIX,
                  getValueType(),
                  aggtype,
                  et);
          aggregate.setDimensionsBasedOnDirection(
              getDim1(), getDim2(), input.getRowsInBlock(), input.getColsInBlock());
          setLineNumbers(aggregate);
          setLops(aggregate);

          if (getDataType() == DataType.SCALAR) {
            UnaryCP unary1 =
                new UnaryCP(
                    aggregate,
                    HopsOpOp1LopsUS.get(OpOp1.CAST_AS_SCALAR),
                    getDataType(),
                    getValueType());
            unary1.getOutputParameters().setDimensions(0, 0, 0, 0, -1);
            setLineNumbers(unary1);
            setLops(unary1);
          }
        }
      }
    } catch (Exception e) {
      throw new HopsException(
          this.printErrorLocation() + "In AggUnary Hop, error constructing Lops ", e);
    }

    // add reblock/checkpoint lops if necessary
    constructAndSetLopsDataFlowProperties();

    // return created lops
    return getLops();
  }
Esempio n. 3
0
  @Override
  public Lop constructLops() throws HopsException, LopsException {
    // reuse existing lop
    if (getLops() != null) return getLops();

    try {
      Hop input = getInput().get(0);

      if (getDataType() == DataType.SCALAR // value type casts or matrix to scalar
          || (_op == OpOp1.CAST_AS_MATRIX && getInput().get(0).getDataType() == DataType.SCALAR)
          || (_op == OpOp1.CAST_AS_FRAME && getInput().get(0).getDataType() == DataType.SCALAR)) {
        if (_op == Hop.OpOp1.IQM) // special handling IQM
        {
          Lop iqmLop = constructLopsIQM();
          setLops(iqmLop);
        } else if (_op == Hop.OpOp1.MEDIAN) {
          Lop medianLop = constructLopsMedian();
          setLops(medianLop);
        } else // general case SCALAR/CAST (always in CP)
        {
          UnaryCP.OperationTypes optype = HopsOpOp1LopsUS.get(_op);
          if (optype == null)
            throw new HopsException(
                "Unknown UnaryCP lop type for UnaryOp operation type '" + _op + "'");

          UnaryCP unary1 =
              new UnaryCP(input.constructLops(), optype, getDataType(), getValueType());
          setOutputDimensions(unary1);
          setLineNumbers(unary1);

          setLops(unary1);
        }
      } else // general case MATRIX
      {
        ExecType et = optFindExecType();

        // special handling cumsum/cumprod/cummin/cumsum
        if (isCumulativeUnaryOperation() && et != ExecType.CP) {
          // TODO additional physical operation if offsets fit in memory
          Lop cumsumLop = null;
          if (et == ExecType.MR) cumsumLop = constructLopsMRCumulativeUnary();
          else cumsumLop = constructLopsSparkCumulativeUnary();
          setLops(cumsumLop);
        } else // default unary
        {
          int k =
              isCumulativeUnaryOperation()
                  ? OptimizerUtils.getConstrainedNumThreads(_maxNumThreads)
                  : 1;
          Unary unary1 =
              new Unary(
                  input.constructLops(),
                  HopsOpOp1LopsU.get(_op),
                  getDataType(),
                  getValueType(),
                  et,
                  k);
          setOutputDimensions(unary1);
          setLineNumbers(unary1);
          setLops(unary1);
        }
      }
    } catch (Exception e) {
      throw new HopsException(
          this.printErrorLocation() + "error constructing Lops for UnaryOp Hop -- \n ", e);
    }

    // add reblock/checkpoint lops if necessary
    constructAndSetLopsDataFlowProperties();

    return getLops();
  }